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How Much Does It Cost to Replace Standing Sailing Rigging?

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When it comes to standing sailing rigging replacement cost, there is no one-size-fits-all answer.

The cost of replacing your standing rigging will depend on a variety of factors, including the size and type of boat, the age and condition of the rigging, and the materials used in the replacement process.

In this blog post, we will provide an overview of the factors that affect standing rigging replacement costs, as well as some ballpark estimates for what you can expect to pay.

Cost Factors

One of the most important factors in standing rigging replacement cost is the size of your boat. Larger boats will require more material and labor to replace their standing rigging, and as such, will typically have higher costs.

Additionally, the age and condition of your standing rigging will also affect the cost of replacement. If your standing rigging is old or in poor condition, it may need to be replaced with a higher-quality product, which will also drive up costs.

Finally, the materials used in standing rigging replacement can also affect costs. Most standing rigging is made from stainless steel wire or rod, but some manufacturers offer alternatives made from other materials like carbon fiber or Kevlar.

These alternative materials can sometimes offer advantages in terms of weight or performance, but they also come with a higher price tag.

Ballpark Estimates

With all of these factors in mind, what can you expect to pay for standing rigging replacement?

For a small boat (under 30 feet), you can expect to pay anywhere from $500 to $2000 for standing rigging replacement. For a medium-sized boat (30-50 feet), the cost will be somewhere between $2000 and $4000.

And for a large boat (over 50 feet), you should budget for at least $4000, and potentially much more depending on the size and condition of the vessel.

Of course, these are just ballpark estimates, and your actual costs may vary.

Can You Do It Yourself?

For many boat owners, standing rigging replacement is a job that is best left to the professionals. The process can be complex and dangerous, and it is important to make sure that the job is done correctly in order to avoid serious safety risks.

However, if you are experienced with working on boats and are confident in your ability to handle the project, you may be able to save some money by doing the work yourself.

If you do decide to tackle standing rigging replacement on your own, be sure to do plenty of research ahead of time and have a clear plan for how you will complete the project. You should also factor in the cost of any tools or materials that you will need to purchase in order to complete the job.

Hi, my name’s David. I started this pricing blog as a side project to help people figure out the best prices on common services. Whether you’re trying to figure out how much it costs to get scanning done at Staples or the expense to bleach short hair, more than likely I’ve blogged about it. Shoot me an email if you have any questions: [email protected].

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The Standing Rigging On A Sailboat Explained

The standing rigging on a sailboat is a system of stainless steel wires that holds the mast upright and supports the spars.

In this guide, I’ll explain the basics of a sailboat’s hardware and rigging, how it works, and why it is a fundamental and vital part of the vessel. We’ll look at the different parts of the rig, where they are located, and their function.

We will also peek at a couple of different types of rigs and their variations to determine their differences. In the end, I will explain some additional terms and answer some practical questions I often get asked.

But first off, it is essential to understand what standing rigging is and its purpose on a sailboat.

The purpose of the standing rigging

Like I said in the beginning, the standing rigging on a sailboat is a system of stainless steel wires that holds the mast upright and supports the spars. When sailing, the rig helps transfer wind forces from the sails to the boat’s structure. This is critical for maintaining the stability and performance of the vessel.

The rig can also consist of other materials, such as synthetic lines or steel rods, yet its purpose is the same. But more on that later.

Since the rig supports the mast, you’ll need to ensure that it is always in appropriate condition before taking your boat out to sea. Let me give you an example from a recent experience.

Dismasting horrors

I had a company inspect the entire rig on my sailboat while preparing for an Atlantic crossing. The rigger didn’t find any issues, but I decided to replace the rig anyway because of its unknown age. I wanted to do the job myself so I could learn how it is done correctly.

Not long after, we left Gibraltar and sailed through rough weather for eight days before arriving in Las Palmas. We were safe and sound and didn’t experience any issues. Unfortunately, several other boats arriving before us had suffered rig failures. They lost their masts and sails—a sorrowful sight but also a reminder of how vital the rigging is on a sailboat.

The most common types of rigging on a sailboat

The most commonly used rig type on modern sailing boats is the fore-and-aft Bermuda Sloop rig with one mast and just one headsail. Closely follows the Cutter rig and the Ketch rig. They all have a relatively simple rigging layout. Still, there are several variations and differences in how they are set up.

A sloop has a single mast, and the Ketch has one main mast and an additional shorter mizzen mast further aft. A Cutter rig is similar to the Bermuda Sloop with an additional cutter forestay, allowing it to fly two overlapping headsails.

You can learn more about the differences and the different types of sails they use in this guide. For now, we’ll focus on the Bermuda rig.

The difference between standing rigging and running rigging

Sometimes things can get confusing as some of our nautical terms are used for multiple items depending on the context. Let me clarify just briefly:

The  rig  or  rigging  on a sailboat is a common term for two parts:

• The  standing rigging  consists of wires supporting the mast on a sailboat and reinforcing the spars from the force of the sails when sailing.
• The  running rigging  consists of the halyards, sheets, and lines we use to hoist, lower, operate, and control the sails on a sailboat.

Check out my guide on running rigging here !

The difference between a fractional and a masthead rig

A Bermuda rig is split into two groups. The  Masthead  rig and the  Fractional  rig.

The  Masthead  rig has a forestay running from the bow to the top of the mast, and the spreaders point 90 degrees to the sides. A boat with a masthead rig typically carries a bigger overlapping headsail ( Genoa)  and a smaller mainsail. Very typical on the Sloop, Ketch, and Cutter rigs.

A  Fractional  rig has forestays running from the bow to 1/4 – 1/8 from the top of the mast, and the spreaders are swept backward. A boat with a fractional rig also has the mast farther forward than a masthead rig, a bigger mainsail, and a smaller headsail, usually a Jib. Very typical on more performance-oriented sailboats.

There are exceptions in regards to the type of headsail, though. Many performance cruisers use a Genoa instead of a Jib , making the difference smaller.

Some people also fit an inner forestay, or a babystay, to allow flying a smaller staysail.

Explaining the parts and hardware of the standing rigging

The rigging on a sailing vessel relies on stays and shrouds in addition to many hardware parts to secure the mast properly. And we also have nautical terms for each of them. Since a system relies on every aspect of it to be in equally good condition, we want to familiarize ourselves with each part and understand its function.

Forestay and Backstay

The  forestay  is a wire that runs from the bow to the top of the mast. Some boats, like the Cutter rig, can have several additional inner forestays in different configurations.

The  backstay  is the wire that runs from the back of the boat to the top of the mast. Backstays have a tensioner, often hydraulic, to increase the tension when sailing upwind. Some rigs, like the Cutter, have running backstays and sometimes checkstays or runners, to support the rig.

The primary purpose of the forestay and backstay is to prevent the mast from moving fore and aft. The tensioner on the backstay also allows us to trim and tune the rig to get a better shape of the sails.

The shrouds are the wires or lines used on modern sailboats and yachts to support the mast from sideways motion.

There are usually four shrouds on each side of the vessel. They are connected to the side of the mast and run down to turnbuckles attached through toggles to the chainplates bolted on the deck.

• Cap shrouds run from the top of the mast to the deck, passing through the tips of the upper spreaders.
• Intermediate shrouds  run from the lower part of the mast to the deck, passing through the lower set of spreaders.
• Lower shrouds  are connected to the mast under the first spreader and run down to the deck – one fore and one aft on each side of the boat.

This configuration is called continuous rigging. We won’t go into the discontinuous rigging used on bigger boats in this guide, but if you are interested, you can read more about it here .

Shroud materials

Shrouds are usually made of 1 x 19 stainless steel wire. These wires are strong and relatively easy to install but are prone to stretch and corrosion to a certain degree. Another option is using stainless steel rods.

Rod rigging

Rod rigging has a stretch coefficient lower than wire but is more expensive and can be intricate to install. Alternatively, synthetic rigging is becoming more popular as it weighs less than wire and rods.

Synthetic rigging

Fibers like Dyneema and other aramids are lightweight and provide ultra-high tensile strength. However, they are expensive and much more vulnerable to chafing and UV damage than other options. In my opinion, they are best suited for racing and regatta-oriented sailboats.

Wire rigging

I recommend sticking to the classic 316-graded stainless steel wire rigging for cruising sailboats. It is also the most reasonable of the options. If you find yourself in trouble far from home, you are more likely to find replacement wire than another complex rigging type.

Relevant terms on sailboat rigging and hardware

The spreaders are the fins or wings that space the shrouds away from the mast. Most sailboats have at least one set, but some also have two or three. Once a vessel has more than three pairs of spreaders, we are probably talking about a big sailing yacht.

A turnbuckle is the fitting that connects the shrouds to the toggle and chainplate on the deck. These are adjustable, allowing you to tension the rig.

A chainplate is a metal plate bolted to a strong point on the deck or side of the hull. It is usually reinforced with a backing plate underneath to withstand the tension from the shrouds.

The term mast head should be distinct from the term masthead rigging. Out of context, the mast head is the top of the mast.

A toggle is a hardware fitting to connect the turnbuckles on the shrouds and the chainplate.

How tight should the standing rigging be?

It is essential to periodically check the tension of the standing rigging and make adjustments to ensure it is appropriately set. If the rig is too loose, it allows the mast to sway excessively, making the boat perform poorly.

You also risk applying a snatch load during a tack or a gybe which can damage the rig. On the other hand, if the standing rigging is too tight, it can strain the rig and the hull and lead to structural failure.

The standing rigging should be tightened enough to prevent the mast from bending sideways under any point of sail. If you can move the mast by pulling the cap shrouds by hand, the rigging is too loose and should be tensioned. Once the cap shrouds are tightened, follow up with the intermediates and finish with the lower shrouds. It is critical to tension the rig evenly on both sides.

The next you want to do is to take the boat out for a trip. Ensure that the mast isn’t bending over to the leeward side when you are sailing. A little movement in the leeward shrouds is normal, but they shouldn’t swing around. If the mast bends to the leeward side under load, the windward shrouds need to be tightened. Check the shrouds while sailing on both starboard and port tack.

Once the mast is in a column at any point of sail, your rigging should be tight and ready for action.

If you feel uncomfortable adjusting your rig, get a professional rigger to inspect and reset it.

How often should the standing rigging be replaced on a sailboat?

I asked the rigger who produced my new rig for Ellidah about how long I could expect my new rig to last, and he replied with the following:

The standing rigging should be replaced after 10 – 15 years, depending on how hard and often the boat has sailed. If it is well maintained and the vessel has sailed conservatively, it will probably last more than 20 years. However, corrosion or cracked strands indicate that the rig or parts are due for replacement regardless of age.

If you plan on doing extended offshore sailing and don’t know the age of your rig, I recommend replacing it even if it looks fine. This can be done without removing the mast from the boat while it is still in the water.

How much does it cost to replace the standing rigging?

The cost of replacing the standing rigging will vary greatly depending on the size of your boat and the location you get the job done. For my 41 feet sloop, I did most of the installation myself and paid approximately $4700 for the entire rig replacement.

Can Dyneema be used for standing rigging?

Dyneema is a durable synthetic fiber that can be used for standing rigging. Its low weight, and high tensile strength makes it especially popular amongst racers. Many cruisers also carry Dyneema onboard as spare parts for failing rigging.

How long does dyneema standing rigging last?

Dyneema rigging can outlast wire rigging if it doesn’t chafe on anything sharp. There are reports of Dyneema rigging lasting as long as 15 years, but manufacturers like Colligo claim their PVC shrink-wrapped lines should last 8 to 10 years. You can read more here .

Final words

Congratulations! By now, you should have a much better understanding of standing rigging on a sailboat. We’ve covered its purpose and its importance for performance and safety. While many types of rigs and variations exist, the hardware and concepts are often similar. Now it’s time to put your newfound knowledge into practice and set sail!

Or, if you’re not ready just yet, I recommend heading over to my following guide to learn more about running rigging on a sailboat.

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Skipper, Electrician and ROV Pilot

Robin is the founder and owner of Sailing Ellidah and has been living on his sailboat since 2019. He is currently on a journey to sail around the world and is passionate about writing his story and helpful content to inspire others who share his interest in sailing.

Very well written. Common sense layout with just enough photos and sketches. I enjoyed reading this article.

Thank you for the kind words.

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Replacing Your Standing Rigging

Published by rigworks on november 27, 2018.

Question – When should I replace my standing rigging?

From the Rigger – According to industry standards, the anticipated lifespan for stainless steel rigging is 10-12 years for wire and 15-20 years for rod. Of course, a number of factors affect a rig’s lifespan including load, sailing conditions, mileage sailed, age, fatigue from cyclic loading, environmental influences such as salinity and contamination, and frequency of care and maintenance. Many people believe that only heavily used rigging needs to be replaced, but the continuous flexing of loose wire that is not under load can take a serious toll as well. The flogging of a loose shroud can actually be harder on wire than steady pressure.

Unfortunately, there are not always visual clues that your rigging has passed its life expectancy. Things to look for include corrosion, pitting, cracks, and broken strands or “meat hooks” on the wire. Rust and discoloration can indicate the location of a crack or crystallization of the metal. Check your spreaders, chainplates and turnbuckles for cracking, fatigue, missing cotter pins/rings, etc. Check the deck around the chainplates and mast for cracking and delamination. If in doubt, get a professional opinion.

The cost to replace standing rigging obviously varies from boat to boat. Give us a call, and we can give you a rough quote. With proper measurements (wire diameter, pin sizes, wire lengths), we can give you a very accurate price for the standing rigging itself, but there are often unforeseen complications during the job (bad spreaders, corroded mast bases, hardware that is stripped on the mast, frozen pins, chainplates that are failing, etc.). A rig inspection beforehand can minimize surprises.  And word of warning… jobs often get expensive because the customer decides, once the mast is down, to add furlers, masthead units, new sheets and halyards, etc. These additions add up quickly and affect the cost of parts, labor, special order shipping, taxes, etc. We are happy to accommodate your requests, but the cost of your job will escalate quickly.

Although we work closely with the boatyard during the job, you will need to negotiate yard fees (crane, mast lay days, etc.) directly with the yard of your choice. They are not included in our estimate. Driscoll Boat Works and Shelter Island Boat Yard are both within walking distance of Rigworks. Assuming it fits in our racks and we have room, we may be able to avoid mast lay day charges by storing your mast here at Rigworks.

As a quick side note… people often ask if they should switch from rod to wire rigging or vice versa during the re-rig (usually from rod to wire as rod is much more expensive per foot). Be aware that this is not a simple conversion and can be quite expensive. The terminations for wire vs. rod can be quite different and require a lot of customization.

Want to prolong the lifespan of your rigging? Here are a few suggestions…

Maintain your standing rigging! Like your car, your sailboat needs TLC. Perform routine cleaning/polishing to remove corrosives, identify chafe points and other damage, and properly tune your standing rigging (shrouds, forestay, backstay). Stainless does not like to be deprived of oxygen, so keep tape off your rigging to avoid anaerobic corrosion. For more information on rig maintenance, visit our prior ‘Ask the Rigger’ article at https://rigworks.com/maintaining-your-standing-rigging/ and download our rig-care pamphlet at https://rigworks.com/wp-content/uploads/2016/03/Standing-Rigging-Care.pdf .

Get regular rig inspections! This is a very inexpensive investment (by yachting standards ) to ensure that your rig is in sound condition. Why not schedule annual service as you would with a car? Let us go over your rig from top to bottom and end to end to identify trouble before it gets worse. For more information on rig inspections, visit our prior ‘Ask the Rigger’ article at https://rigworks.com/the-scoop-on-rig-inspections/ . Our riggers can also tune your rig, either at the dock or under sail. Not only will your rig last longer when properly tuned, your boat will sail better, and who doesn’t love that!

Consider pulling your rig every 5-6 years to inspect the mast base, chainplates, turnbuckles, wire, etc. This is considerably less expensive than a full re-rig and, again, may identify issues before they become catastrophic.

And PLEASE do not buy a used boat without a professional rig inspection! We have had many customers who have found a ‘great deal’ on a used boat only to discover that they need to spend a small fortune on new rigging. A boat with bad rigging is at best a pain in the #@$ and at worst a lethal weapon. There is nothing more expensive than a “cheap” boat!

A customer came into our shop the other day to discuss his 33-year old rigging. He said it looked fine. He asked “Isn’t the industry standard just a ploy by manufacturers to sell more wire”. Since we also stand to gain when you replace your rigging, let us say that many insurance companies will not insure sailboats with aged rigging. This should be a warning. If they are not willing to take the financial risk, are you willing to risk yourself and your crew?

Finally, should you decide to sail with that old rigging, consider checking out the ‘Ask the Rigger’ article titled “Rigs Fail… Are You Ready?” at https://rigworks.com/rigs-fail-ready/ .

Safe Sailing!

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Standing Rigging on a Sailboat: Everything You Need to Know

by Emma Sullivan | Aug 14, 2023 | Sailboat Gear and Equipment

Short answer standing rigging on a sailboat:

Standing rigging on a sailboat refers to fixed lines and cables that support the mast and help control its movement. It includes components like shrouds, stays, and forestays. These essential elements ensure stability and proper sail trim while underway.

Understanding the Importance of Standing Rigging on a Sailboat

Sailboats are marvels of engineering and ingenuity, capable of harnessing the power of the wind to transport us across vast oceans and explore far-flung destinations. As sailors, we often focus on the majestic sails, sleek hull designs, and cutting-edge navigation technology that make these vessels so awe-inspiring. However, there is one crucial component that sometimes goes unnoticed but plays a vital role in keeping our sailboats safe and seaworthy – the standing rigging.

The standing rigging refers to the network of wires and cables that support the mast and allow it to bear the tremendous loads exerted by the sails. It acts as the backbone of a sailboat’s rig , providing stability, strength, and balance. Understanding its importance is crucial for anyone who sets foot on a vessel with dreams of cruising or competing.

Firstly, let’s examine why standing rigging is essential for sailboat safety. Imagine being out at sea when suddenly your mast collapses due to faulty rigging . This nightmare scenario can easily be avoided by regularly inspecting your boat’s standing rigging for signs of wear or fatigue. Frayed wires or corroded fittings could weaken the entire structure, making it susceptible to failure under heavy winds or rough seas . By ensuring your standing rigging is in good shape through routine maintenance and inspections by professionals, you can significantly reduce this risk and ensure your own safety onboard.

Moreover, properly tensioned standing rigging is vital for maintaining optimum sailing performance. The tension in each wire within the standing rig allows for efficient transfer of power from sails to keel through mast compression. If your standing rigging is too loose or too tight, it can negatively impact your sail trim and overall boat handling capabilities. A well-tuned rig will provide better control over sail shape adjustments necessary for different wind conditions while maximizing speed potential – something every sailor strives for!

Beyond safety and performance, understanding the importance of standing rigging requires recognizing its impact on the overall balance of your sailboat. The rigging plays a crucial role in maintaining the boat’s equilibrium by counteracting the forces exerted by the sails. Without proper tension and alignment of the standing rig, a sailboat may become unbalanced, resulting in compromised stability. This imbalance can make steering more challenging, increase the risk of broaching, or even lead to capsizing in extreme cases. Therefore, paying close attention to your standing rigging ensures that your boat remains stable and enjoyable to sail.

Lastly, it is worth mentioning that investing in high-quality materials and professional rigging services will prove cost-effective in the long run . While it may be tempting to cut corners or delay necessary upgrades or maintenance, neglecting your standing rigging will only result in more significant expenses down the line. Inadequate rig tension can lead to excessive wear on other components such as sails or mast fittings, increasing their replacement frequency and cost.

In conclusion, understanding and valuing the importance of standing rigging on a sailboat is essential for sailors of all levels. It directly impacts safety at sea, enhances sailing performance, maintains balance and stability, ultimately contributing to an enjoyable experience on board. So next time you set foot on a sailboat or contemplate owning one yourself, don’t forget to give due attention to this often overlooked but vital aspect – your boat’s standing rigging!

Step-by-Step Guide: How to Inspect and Maintain Standing Rigging on a Sailboat

Title: Cracking the Code: A Step-by-Step Guide to Inspecting and Maintaining Standing Rigging on a Sailboat

Introduction: Ahoy, fellow sailors! Whether you’re an experienced seafarer or a sailing enthusiast ready to cast off, understanding how to inspect and maintain your sailboat’s standing rigging is crucial for smooth voyages on the high seas. In this detailed guide, we will unravel the mysteries of standing rigging examination and upkeep, enabling you to confidently navigate through any sailing adventure. So hoist your mainsail, secure your halyards, and let’s dive into the world of rigging maintenance !

1. Understanding Standing Rigging: Before we embark on our inspection journey, let’s clarify what exactly constitutes standing rigging. Embracing technical jargon like professionals often do, this refers to those sturdy wire cables that provide support to the mast and keep everything in place as your vessel slices through the waves. These cables are under constant stress from wind pressure and oceanic forces; therefore, routine inspections are vital.

2. Assemble Your Inspection Arsenal: Essential tools at hand? Check! Embark upon your quest equipped with binoculars (to assess hard-to-reach areas), a multimeter (for electrical testing), tape measure (we love accuracy!), a notepad (to document findings), lubricant spray can (to combat rust), and some good ol’ elbow grease.

3. Visual Inspection Bonanza: Begin by examining every component of your standing rigging thoroughly. Start from bow to stern – nothing should elude your gaze! Look out for signs of fraying wires, corrosion spots – identified by those elusive green spots -, improperly tightened connections or turnbuckles hanging loose like unfortunate pirate hooks. Pay close attention when checking shrouds and stays around their terminal points.

4. Tension Testing Zen: Employing a multimeter capable of measuring tension is vital for this next step. Like tuning an instrument, each cable must be correctly tensioned to ensure optimal performance . Begin at the base of your mast, working your way up one stay or shroud after another, carefully noting the readings. Adjust tensions as needed, using the manufacturer’s guidelines as your North Star.

5. Get Into Detailing Mode: To maintain a seaworthy craft, meticulousness is key! Start by cleaning every inch of standing rigging with fresh water and mild soap to rid it of salt crystals and other corrosive agents that Mother Nature throws our way. Once dry, inspect terminals for any hidden corrosion potential. Remember to apply lubrication around all fittings where metal meets metal – preserving their longevity on this salty adventure.

6. Diving into DIY Replacements: Sometimes, despite our best efforts, some elements may need replacement eventually. Worn-out or damaged fittings demand immediate action! While there are professionals who can lend a helping hand, attempting minor repairs yourself allows you to save time and money in the long run. Just remember safety first – secure your vessel properly before venturing aloft!

7. Periodic Inspections are Pathway to Peace: As the seasons go by and maritime miles accumulate beneath your hull’s keel, remember that rigging inspections should become regular occurrences in your life as a sailor. Incorporating these tasks into your annual maintenance routine will keep you up-to-date on the health of your standing rigging and reduce unexpected surprises during those thrilling offshore adventures.

Conclusion: With this comprehensive guide in tow, inspecting and maintaining standing rigging on a sailboat will no longer bewilder even the most landlocked soul. Armed with knowledge and armed-still-with tools-of-the-trade in hand – embark upon every voyage knowing that smooth sailing is within reach! Remember comrades: vigilance coupled with clever maintenance ensures many marvelous voyages atop Neptune’s watery kingdom!

The Key Components of Standing Rigging on a Sailboat Explained

When it comes to sailing, understanding the key components of standing rigging is crucial. This system of cables and wires plays a vital role in keeping a sailboat’s mast upright and ensuring the safety of everyone on board. So, let’s dive into these essential elements to unravel their importance and how they work together seamlessly.

1. Mast: The mast, often referred to as the backbone of a sailboat, is a tall vertical structure that supports the sails. It provides stability and acts as an attachment point for various components of the standing rigging.

2. Shrouds: Shrouds are strong steel or synthetic cables that extend from the top of the mast down to its sides, creating lateral support. Usually arranged in pairs, they help prevent excessive side-to-side movement and maintain proper alignment while under sail or at anchor .

3. Forestay: Situated at the front of the mast, directly opposite to where you stand while steering, is the forestay. This forward-facing cable keeps the mast from tipping backward due to wind pressure against the sails when sailing upwind. It ensures that your sailboat remains balanced even in gusty conditions.

4. Backstay: The backstay is another essential component that counterbalances the force exerted by the forestay on your sailboat’s mast when sailing upwind or under heavy loads. Most commonly attached at or near the highest part of your boat ‘s stern (aft end), this cable prevents undue bending or breaking caused by fore-aft pressure.

5. Tangs and Turnbuckles: These small yet mighty components connect shrouds and stays to both the hull and mast with ease and allow for easy adjustment and fine-tuning of tensioning within your standing rigging system. Tangs are fittings attached directly to masts or other structural components using bolts or screws, while turnbuckles provide threaded connections allowing for precise adjustments.

6. Spreaders: Installed horizontally on either side of the mast, spreaders play a crucial role in maintaining the integrity and proper angle of shrouds. They prevent excessive bending or twisting forces by creating a wider stance for the shrouds, ensuring even stress distribution.

7. Standing Rigging Lifelines: These lines, typically made of stainless steel wires or synthetic materials like Dyneema, serve as an additional safety measure by helping to prevent crew members from falling overboard while working on deck. Strategically placed along the sides of the sailboat, they offer stability and support during maneuvering or rough seas.

Understanding these key components is vital not only for sailboat owners but also for anyone interested in sailing . Proper maintenance and routine inspections are essential to ensure optimal performance and mitigate any risks associated with deficiencies within your standing rigging system.

So next time you set sail or find yourself gazing out at a beautifully rigged sailboat, take a moment to appreciate the intricate balance and coordination that these key components provide. It’s truly a remarkable collaboration between technology, engineering, and Mother Nature herself – allowing us to glide through the waves with grace and elegance.

Common FAQs about Standing Rigging on a Sailboats Answered

Introduction: Standing rigging is an essential component of sailboats, playing a crucial role in supporting the mast and ensuring optimal performance on the water. However, many sailors are often perplexed by various aspects of standing rigging, leading to a multitude of frequently asked questions. In this comprehensive blog post, we aim to answer some of the most common FAQs about standing rigging on sailboats, providing detailed and professional insights while adding a touch of wit and cleverness.

1. What exactly is standing rigging? Ah, standing rigging – the unsung hero of every sailboat! Standing rigging refers to all the fixed elements that support the mast in an upright position. These elements typically comprise stainless steel wires called shrouds and stays along with associated fittings like turnbuckles and tangs. Think of it as the sturdy backbone that keeps your mast from taking an inconvenient swim!

2. When should I inspect my standing rigging? Regular inspections are crucial for maintaining a safe sailing experience. We recommend inspecting your standing rigging at least once a year or before embarking on any long voyage. Additionally, keep an eye out for any signs indicating potential problems such as excessive rust, wire deformation, or frayed cables. Remember: It’s better to be safe on land than sorry at sea !

3. How do I know when it’s time to replace my standing rigging? While rigorous inspections can highlight any potential issues, there are certain indicators that suggest your standing rigging might need replacement sooner than later:

a) Age: As a general rule of thumb, consider replacing your standing rigging after 10-15 years. b) Visible damage: If you spot visible signs of wear and tear like broken strands or corroded fittings, it’s time for new gear. c) Elongation: In some cases, constant strain can cause wire elongation over time – if this exceeds manufacturer recommendations or 5%, it’s replacement time. d) Performance decline: Have you noticed reduced boat performance or excessive mast movement? Outdated rigging may be the culprit.

4. Can I inspect and replace standing rigging myself? Inspecting your own standing rigging is indeed possible if you possess adequate knowledge and experience. However, replacing it yourself requires specific expertise, so unless you’re a seasoned sailor with professional background in rigging, we highly recommend entrusting this task to certified riggers who can ensure everything is done correctly. After all, your safety should never be compromised!

5. How much does standing rigging replacement cost? Ah, the golden question! While costs can vary depending on factors like the size of your boat, the material used for new rigging (stainless steel or synthetic fibers), and labor expenses – expect to invest anywhere from a few thousand to tens of thousands of dollars for a complete standing rigging replacement. Remember that proper maintenance upfront can help extend the lifespan of your rigging and save you some precious doubloons!

6. Can I switch from stainless steel to synthetic fibers for my standing rigging? Absolutely! Synthetic fiber alternatives like Dyneema® have gained popularity due to their lighter weight, high strength-to-weight ratio, and lower corrosion risk compared to stainless steel. These materials offer enhanced performance capabilities and are a valid consideration when upgrading or replacing your standing rigging system entirely.

7. What’s the typical lifespan of synthetic fiber standing rigging? While longevity depends on various factors such as usage patterns and environmental conditions, well-maintained synthetic fiber standing rigging systems generally last around 10-12 years before requiring replacement – comparable to their stainless steel counterparts.

Conclusion: Standing rigging on sailboats may seem mysterious at first glance, but by answering these common FAQs with informative yet witty explanations, we hope to shed light on this crucial sailing component while bringing a smile to our readers’ faces. Remember, understanding and properly maintaining your standing rigging will ensure safe and enjoyable voyages for years to come. So, stay rig-ready and sail on!

Upgrading Your Standing Rigging: What You Need to Know

In the world of sailing, upgrading your standing rigging is a vital decision that can greatly impact your vessel’s performance and overall safety. The standing rigging, which includes the various wires and cables that hold the mast upright, plays an essential role in ensuring stability and proper sail control. In this blog post, we will delve into everything you need to know about this crucial aspect of sailing.

Firstly, why should you consider upgrading your standing rigging? Over time, wear and tear can take a toll on this crucial component of your boat . Exposure to harsh weather conditions, continuous strain from strong winds or heavy sails, and even galvanic corrosion can all lead to the degradation of your rigging. As a responsible sailor, it is imperative to regularly assess the condition of your standing rigging and determine when an upgrade is necessary.

When it comes to upgrading your standing rigging, there are several key factors you need to consider. One essential aspect is choosing the right materials for your new rigging. Traditionally, stainless steel has been widely used due to its durability and strength. However, recent advancements in composite materials have opened up new possibilities for sailors. High-tech fibers like carbon or aramid offer impressive strength-to-weight ratios while being less susceptible to corrosion than steel.

It is important to consult with an experienced rigger or marine engineer who can guide you in selecting the most suitable material for your specific sailing activities and vessel type. They will take into account factors such as boat size, intended use (racing or cruising), budget constraints, and local climate conditions before recommending the best material for your standing rigging upgrade.

Another crucial consideration in upgrading your standing rigging is determining whether you want to switch from wire rope-based rigging to rod-based systems or composite products. Rods are known for their superior stiffness and excellent fatigue resistance but may require specialized equipment for assembly and maintenance. Composite systems typically combine carbon fiber or fiberglass with a resin matrix, offering versatility and customization options.

Furthermore, when planning to upgrade your standing rigging, it’s essential to conduct a thorough inspection of the mast and fittings. Any signs of wear and tear, cracks, or deformations in the mast or associated hardware should not be overlooked. Reinforcing these components may be necessary before installing new rigging to ensure optimal safety and performance .

During the installation process itself, meticulous attention to detail is crucial. Proper tensioning and alignment of the rigging are vital for achieving optimal sailing performance . Consulting with professionals in the field will ensure that you avoid common pitfalls such as over-tensioning or under-tensioning your rigging, which can potentially compromise its strength and longevity.

Upgrading your standing rigging not only ensures a safer sailing experience but also presents an opportunity to enhance your vessel’s performance capabilities. By optimizing sail control and reducing overall weight aloft, you can achieve faster speeds and improved maneuverability on the water.

In conclusion, upgrading your standing rigging is an investment that should never be taken lightly. It requires careful consideration of multiple factors such as materials, boat specifications, and local conditions. Seeking expert advice throughout this process will help you make informed decisions that align with your sailing goals while ensuring maximum safety and enjoyment on the open seas . So don’t hesitate – take charge of your vessel’s integrity today by embarking on an exhilarating upgrade journey!

Troubleshooting Common Issues with Standing Rigging on a Sailboat

Title: Navigating the High Seas of Standing Rigging: Deconstructing Common Sailboat Troubles

Introduction: Setting sail on a beautiful day, wind in your hair, and salt in the air – there’s nothing quite like the freedom of sailing. But as any experienced sailor knows, with great freedom comes great responsibility; one must always be prepared to tackle common issues that can arise with standing rigging on a sailboat. In this comprehensive guide, we’ll be your navigational chart through the murky waters of troubleshooting these problems.

1. The Tale of Loose Wires: Picture this: you’re out at sea, enjoying the blissful embrace of nature when suddenly you notice an unsettling amount of slack in your boat’s rigging wires. As panic sets in, take a deep breath and remember that loose wires are not an uncommon predicament. Before jumping ship into despair, consider inspecting your turnbuckles for any signs of wear or corrosion. Often, a simple tightening or lubing can solve the issue and restore equilibrium to your rigging system.

2. Strange Groans from Your Mast: As the wind howls through your sails, does it feel like someone is playing an eerie tune on your mast? Fear not! These disconcerting noises can typically be traced back to halyards rubbing against sheaves or pulleys. Be diligent about inspecting these components and ensuring they are properly aligned and lubricated.

3. The Mystery of Shaky Connections: Imagine cruising along peacefully when you notice unsettling vibrations emanating from various connections within your standing rigging system – another nuisance faced by many sailors. Remember to check bolts and fittings for tightness and wear regularly; sometimes a mere tightening can spare you from enduring an inconvenient wobble during every voyage.

4. Elusive Corrosion Castaways: While corrosion may seem like a mythical creature lurking under layers of saltwater incantations, it sadly isn’t. The corrosive effects of the marine environment can take their toll on your rigging, leading to weakened and compromised wires. To avoid this encroaching villain, regularly inspect your rigging for signs of corrosion, paying extra attention to any dissimilar metals in contact with each other. When identified early, you can tackle this issue head-on through diligent cleaning and application of protective coatings.

5. That Perplexing Sag: No one wants a saggy rig! If you notice an unacceptable amount of slack or downward curve in your wire stays or shrouds when under load, it’s time to put on your problem-solving hat. Begin by ensuring that all turnbuckles are suitably tensioned and that the mast rake is properly adjusted. A little fine-tuning may be all it takes to regain the tautness required for smooth sailing .

6. Stay Seals Against Abrasion: Do you find your stay seals battling against wear and tear? It might be time to beef up their defenses! Insulate vulnerable areas with appropriately sized rubber tubing or durable tape like self-amalgamating tape. This extra layer of protection will help prevent damage from chafing lines or abrasive surfaces.

Conclusion: As sailboat enthusiasts know, standing rigging issues can arise unexpectedly and interrupt even the most idyllic voyages at sea. By keeping these troubleshooting considerations in mind while setting sail , you’ll have a handy compass to lead you through the challenges that come with maintaining a well-maintained rig. So next time the wind whispers trouble into your ears while adrift on your beautiful vessel, fear not – armed with knowledge and wit, you’ll conquer those common issues with ease and go back to enjoying the sublime freedom provided by sailing adventures!

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Anchoring clearance, standing rigging clearance, running rigging clearance, deck hardware clearance, chandlery clearance, safety clearance, replacing your standing rigging - a step by step guide.

Replacing the standing rigging on a sailing yacht, a complete re-rig, in other words, may seem daunting. Still, there is a procedure to follow that can make it a relatively straightforward process for anyone who is reasonably practical.

The first decision is whether to tackle the job with the mast up or down

If you have enough time, together with the availability of a mast lift, then mast down is by far the easier option. The whole project will be more straightforward with the mast horizontal, chocked up on firm ground and accessible for inspection and work. You may even choose to do the upper mast inspection after lowering the mast to save going aloft in a bosun's chair. You can purchase each wire with swaged terminals, finished and ready to fit at both ends. You can order yourself online or with help from the Jimmy Green Rigging Team.

You can take confidence from the fact that there is a good deal of adjustment on the rigging screws to allow for minor measurement errors. It is worth noting that Team Jimmy Green set the turnbuckles at 2/3 open unless otherwise requested and undertake to produce the finished wires accurately to within plus or minus the diameter of the wire.

If the mast has to remain stepped, you need a slightly different approach, generally involving the purchase of each wire over-long with the top terminal swaged. The bottom end will need to be finished in situ by cutting to the exact length and fitting a DIY self-fit swageless (mechanical) terminal. Modern swageless terminals from Sta-Lok, Bluewave or Petersen are reasonably simple to fit so that you can be confident of success.

If you can take down each stay individually and temporarily to measure it accurately, you can order the replacements with swaged fittings at both ends. Each wire should be pulled out taut with some tension to ensure an accurate measurement. It won't be easy to measure a stay accurately while it is still in situ.

Please note that the information in yacht manuals should not be regarded as reliably accurate enough to make up a set of finished rigging.

Rigging Checklist

Rig tune and tension check on existing rigging.

• Consider any design or specification alterations
• Close inspection of all components, including measuring diameters

Take photos

Mark all tension settings, determine any possible improvements.

• Order process for mast unstepped
• Order process for mast remaining stepped

Each step is explained more fully below:

Begin by checking that your current rigging is set up and tuned correctly. This need not be as technical as it sounds - you need to be sure that you will copy a rig that works well. The essentials are mast rake and bend, athwartship vertical alignment and correct tensioning. You may want to ask for some professional advice. Still, if your current setup performs satisfactorily upwind and downwind on both tacks/gybes, it may be best to avoid interfering with the current settings. The aim of the game is to replicate the old rig with a new one within parameters that allow for adjustment and tuning.

Look for extra unnecessary shackles or toggles which may have been added to compensate for the wire being too short, and determine whether they can be omitted from the new rig.

Consider any design or specification alterations.

The next step is to survey all aspects of the rigging, including an assessment of whether the existing is the right design and specification for your anticipated purposes, e.g. Coastal, Offshore or Ocean Cruising, occasional or hard core racing.

Close inspection of all components

Carry out a thorough rigging inspection, including all the wire, terminals and clevis pins. Establish the size of every component and make notes. A good quality pair of callipers is an invaluable investment for producing accurate results.

Once you have confirmed the wire diameter, the approximate length and identified the terminals, top and bottom, it is a simple online exercise to get an accurate estimate of the replacement cost on Standing Rigging . Alternatively, Team Jimmy Green can produce a costing based on the same information.

Take photos of everything, including zoomed-in details of anything you are unsure about and any others that will serve as a reminder when fitting the new shrouds and stays.

Check for any signs of wear or structural damage and identify the probable cause.

Problems can occur for many reasons:

• Misalignment leading to stress at an odd angle
• T terminals that are not seated properly in their mast plate
• T terminals that don't quite match their mast plate
• Fittings that allow unnecessary movement
• Lack of articulation due to missing toggles
• Undersized clevis pins or oversized clevis pin holes

Some of these may be the reason you are replacing the rig, so avoid repeating the issue on the new setup.

Standard pin and hole diameters correspond with the thread size of the studs in the turnbuckles. Each wire diameter has a varied choice of stud/turnbuckle sizes. Components on either side of the standard sizing are denoted as Down Size and Up Size by Petersen Stainless Rigging. Threads are generally UNF or possibly the Metric equivalent. The table below sets out all the relevant sizes for standard, Down Size and Up Size components. If your rigging has unique non-standard characteristics, the Jimmy Green Rigging Team can source bespoke replacements or suggest suitable alternatives.

This chart is a guide only. Please check all dimensions before ordering your rigging.

Please note all the turnbuckle settings before disconnecting any shrouds or stays by marking them with tape or taking photos. It would be best if you loosened all the turnbuckles to disconnect them at deck level.

Remember to return them to their noted settings before measuring. The new rigging can be made to the required length with the optimum adjustment, normally 2/3 open.

One last check to ensure that there isn’t a change of fitting or a tweak in the setup that will make the new rig an improvement on the old one.

Order Process for Mast-Unstepped.

Dependent on the time factor, there are two main options to consider:

Determine the terminals required, measure the wires, make any adjustments, place your order online, or email your requirements for Team Jimmy Green to load the order for you.

N.B. The old wires should be removed from the mast and pulled out taut with a degree of tension to ensure they are straight in readiness for measuring.

Measurements are from  bearing edge to bearing edge of the pins or eyes.

Please refer to our Standing Rigging Custom Build Instructions  for T terminals and studs.

Label the individual stays. You may need them as an aide memoir when you come to fit the new standing rigging.

Check and double-check your measurements and terminal fittings before ordering. Remember the old adage: “Measure twice, cut once”.

Remove the old stays, labelling them carefully and noting any amendments required to length or fittings.

Coil the wires as neatly as possible.

Send them or bring them to Jimmy Green Marine for assessment and a quote.

This option puts the onus on the Jimmy Green Rigging Team to replicate your rigging accurately.

Order Process for mast remaining stepped.

Establish the length of the existing shrouds and stays.

Please look at our Standing Rigging Custom Build Instructions 

Order new wires with the required top terminals swaged on and the wire length appropriately over length for cutting and fitting in situ.

Order DIY swageless terminals for the bottom end.

The wire should be long enough to be cut and fitted with the new swageless terminal to finish at the desired length.

N.B. Replacing the forestay will be tricky if it is fitted with a headsail furler, and you may need professional help.

Take down each shroud individually. N.B. take precautions to stay the mast with a temporary line.

Measure the length accurately and replace it on the mast.

Repeat the process for each shroud or stay.

Measurements are from  BEARING EDGE TO BEARING EDGE  of the pins or eyes.

For T terminals and studs, refer to our  STANDING RIGGING CUSTOM BUILD INSTRUCTIONS .

Jimmy Green Advisory - Check your Order Details Carefully

You must check your order confirmation for any discrepancies, especially for complex orders.

Please pay special attention to orders uploaded to our website for you, e.g. those originating from telephone or email enquiries or Team Jimmy Green pattern measurement.

This will highlight any misunderstanding before the work is commenced.

There is a wealth of information available to help you to a successful conclusion on our website:

Standing Rigging Assistance Shop for Standing Rigging

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The $tingy Sailor

Diy trailerable sailboat restoration and improvement without throwing your budget overboard.

How to Replace Your Standing Rigging for Less

When we purchased Summer Dance , the standing rigging was one system that I knew I would need to replace right away. The upper shrouds had been replaced recently with well made cables, probably from that popular online Catalina parts retailer. The backstay and forestay were in satisfactory condition but were original from 1981. The lower shrouds were a mix of mismatched, poor quality, oversized replacements and failing originals.

At first, I assumed that I would replace the backstay, forestay, and lower shrouds with kits from that same retailer. They make replacement easy with pre-made kits or they can make custom replacements from your original rigging. But their prices are steep and I’d had a bad experience with their technical support so I decided to look for other options.

Shopping around

I tried to get price quotes to compare with the Catalina parts retailer from several other rigging shops that advertise in sailing magazines and online but they were either unresponsive or vague. Next, I considered making the rigging myself from materials bought online. But investing in the proper tools would dilute the cost savings considerably. I would have to replace the rigging multiple times to recoup that investment.

Then I remembered that there is an industrial rigging company located near me. I was familiar with their regular steel wire rope products from a job that I held long ago that used their products. I called them to find out if they worked with stainless steel and if they were experienced in building sailboat rigging. Their answer to both questions was yes and they gave me a very encouraging cost per foot estimate. For about the cost of the bare wire rope to do it myself (not including tools, thimbles, and sleeves), they could do it all. That’s what I call a no-brainer.

Following are approximate costs per foot (in 2014) for standing rigging from several popular sources compared to the rigging company in my area.

Popular online Catalina parts retailer: $4.00/ft. complete West Marine: $1.02/ft. cable only McMaster-Carr: $0.85/ft. cable only Local industrial rigger: $1.13/ft. complete

I met with Cory at Broadway Industrial Supply and was surprised to learn that they fill many orders for stainless steel wire due to its popularity for architectural railings. I decided to have the shrouds made out of 316 stainless steel with thimbles and Nicro Press sleeves rather than roller-swaged terminals for two reasons: cost and simplicity.

The newer, roller-swaged style fittings are significantly more expensive than hand-pressed sleeves. The common reasons for using the new fittings are: there are fewer parts to maintain, fail, or chafe sails, and their ability to withstand a higher percentage of the breaking strength of the cable. I do admit they look really nice. Proponents make impressive claims about their superiority over the more primitive pressed sleeves. But the fact remains that pressed sleeves have been used successfully for decades in a multitude of application, are still an accepted industry practice, and even as bad as my rigging was, they performed well.

In all of the pictures in this post, the rigging tape was removed from over the swaged fittings to show their condition and workmanship.

A few words about cable types

When working with a rigger, especially an industrial rigger who may not be familiar with sailboat rigging, it’s important that you specify the correct cable type for strength, chafe avoidance, and rust resistance.

Regular steel wire rope like you can find in a home improvement or hardware store will not last long in a marine environment. Fuggedaboutit. Only stainless steel will survive and, among the different types of stainless steel cable, there are a couple of common choices. The first is 304 grade, which is slightly stronger but is less corrosion resistant or 316 grade, which is slightly less strong but more corrosion resistant. The difference between the two grades is due to the chemical composition of the metal. Your choice as to which grade to use should be made with consideration of the type of sailing you usually do (cruising or racing) and the water that you sail in (fresh or salt water).

Besides the material that the cable is made of, the construction is also important. The most common constructions that you will see are 1×19 (1 strand of 19 wires) and 7×19 (7 strands comprised of 19 wires each). The two types have different strengths, stiffness, and stretch. For applications where ease of bending and use with blocks is more important and the amount of stretch is not as important (wire to rope halyards, for example), 7×19 cable is better. In applications where minimum stretch and maximum strength are important and stiffness is not important (standing rigging, for example), 1×19 is best.

Lastly, there’s the matter of cable diameter. Your sailboat was originally equipped with cables of sufficient diameter for its design and intended use. Seldom is it beneficial to oversize the rigging diameter for racing or to endure abuse or neglect. Doing so just adds to the cost and weight aloft for negligible benefit so stick with the original diameters.

What not to do

Substandard rigging workmanship isn’t hard to spot once you’ve seen the right stuff. The cable should fit tightly around the thimbles, which should not be too small or too large for the cable diameter or the connection pin. The sleeves should be the correct size for the cable and the sleeve seam aligned perpendicular to the eye opening. Each sleeve should have the correct number of evenly spaced crimps that are appropriate for the cable diameter. Two sleeves should be pressed at each end with a space between them equal to one to two cable diameters. The cut end of the cable should extend completely through the second sleeve but not more than one cable diameter farther so as not to create frayed wires that can snag sails and skin.

The old rigging on Summer Dance was a mix of 1/8″ 1×19 wire rope (right side of the big picture) and 5/32″ 7×19 wire rope (left side of the big picture). The oversize 7×19 cables weren’t even installed in the same locations on opposite sides of the boat, which probably produced uneven loading of the mast from one side to the other.

Standard wire rope lengths

Here are the lengths of the cables for a Catalina 22 with standard rigging. All cables are 1/8” diameter, 1×19 construction.

Now’s the time to customize your rigging

Shortening or lengthening your running rigging is fairly easy and most of us have done it at some time to optimize how it works. Once your standing rigging is built, however, except for significantly shortening a cable, any other changes usually require complete replacement of the part, which can be several times the cost per foot of running rigging. So when you order your standing rigging is the time to consider any length changes for things like:

• Different type of backstay (fixed or adjustable )
• Different length turnbuckles
• Extra mast rake angle
• Quick release levers 
• Other modifications that can’t be accomplished with your current rigging.

Remove, replace, retune

To make it easier for Broadway Industrial Supply to build my rigging, I removed the old rigging and dropped it off with them for reference. If you do the same, label each cable so that you know where it came from. If your new rigging arrives without corresponding labels, you can at least match up the lengths with the old rigging to figure out where they go.

About a week later, I picked up the new rigging and was impressed with the quality of workmanship. All of the eyes were consistently and accurately formed. I had given my rigger a supply of white, heavy duty heat shrink tubing similar to what was on the original rigging. I asked him to put two pieces on each cable before making the eyes, enough to cover the crimped sleeves to prevent snagging and chafing the sails and running rigging. A few minutes with a heat gun sealed them all shut. Last, I slid white vinyl cable covers on the lower ends of all of the cables to prevent chafing the running rigging.

Installing the new standing rigging is simple for a trailer sailor after the mast is unstepped:

• Remove the clevis pins at each end if you haven’t already, replace the old cable with the new cable, and reinstall the clevis pins. Now is also a good time to install all new cotter pins or rings to leave no doubt as to the integrity of your connections.
• Step the mast back into position. You might need to first loosen any overly short turnbuckles.
• Tune the rigging as you normally would. I own a Loos tension gauge and its been a good investment to keep all the stays and shrouds at proper tension. For more about tuning and tension gauges, see How To Measure Standing Rigging Tensio n .

Open body vs. closed body turnbuckles

If you’ve done this job before, you might be asking, “But what about the turnbuckles, $tingy?” I chose not to replace my turnbuckles at the same time and that is reflected in my overall 70% cost savings over retail. My reasoning was not simply to save money, though. That was secondary. The biggest reason was that my existing closed body turnbuckles were still in good condition and I’m not convinced that open body turnbuckles are absolutely necessary, contrary to what many riggers will tell you in order to sell you more hardware.

I regularly disassemble, clean, inspect, and lubricate all of my turnbuckles. That alone negates the biggest reason given by the open body turnbuckle proponents. Yes, a tiny bit of water and dirt can get in those tiny holes in closed body turnbuckles. Yes, it won’t dry as fast as in an open body turnbuckle. But there’s also much less of it in there to begin with and to work its way down into the threads and corrode them compared to open body turnbuckles.

Another reason that proponents give for open body turnbuckles is that it is harder to see if a closed body turnbuckle is overextended. My rebuttal is that anybody who adequately familiarizes themselves with their closed body turnbuckles (through regular maintenance is a good way) should have no trouble recognizing whether a turnbuckle is overextended or not.

Moreover, my closed body turnbuckles are only exposed to fresh water so salt water corrosion isn’t a concern. I’ve also replaced some of the T bolts that were bent due to incorrectly rotated chain plates so those threads are new. If you’re not sure if your chain plate bolts are turned correctly, read Turn Those Chain Plate Bolts!

Open body turnbuckles are great, especially if you’re going to neglect their maintenance. If I needed to replace my turnbuckles, I’d give more consideration to open body ones. But body style alone isn’t enough reason for me to throw hundreds of dollars of working hardware away for shiny new hardware. Nuf said.

It’s now been almost ten years since I replaced by standing rigging this way and I have not had a single issue with it. And I sometimes push my rigging hard. If I ever need to do this job again, I’ll probably do it the same way.

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25 thoughts on “ how to replace your standing rigging for less ”.

Stingy, I really enjoy your common sense approach to boat projects, Thanks for sharing! Another thing I have seen done by cruisers on a budget is to use 2′ to 4′ of the appropriate strength galvanized chain from the chain plates to galvanized open body turn buckles that attach to the rigging. These short lengths of chain keep the extra weight down low and keep the “budget” turnbuckles up away from the elements a bit and seem to last 10 to 15 years with proper maintenance and care. Galvanized is also not prone to the “invisible” failure fractures that even good Stainless is. If you are on a budget, you can either do what works to keep moving or sit there and grow barnacles while you wait for your (money) ship to come in! Keep up the great posts!

Good advice, Warren. I can’t help but think that sailors were some of the original MacGyvers, making and fixing things with only what they had on hand and lots of ingenuity.

• Pingback: Five swing keel maintenance blunders and how to prevent them | The $tingy Sailor

Stingy, I live inland and it is difficult to source knowledge, sail rigging and assorted parts. The more detail and source info you add is appreciated tremendously and if you get some money for the link good for you. If you can edit your post to add in size of shrink wrap dia. and dia. + length of vinyl covers it would be very helpful. I was even wondering if you remembered the length of the forward shrouds after converting over to quick release system I just found a 1982 and this will be my first upgrade for money well spent. There is allot of older Catalina 22s out there in disrepair or missing parts and fewer places to ask questions. This web site is fantastic you have great ideas, thank you for taking the time to share your lessons learned and Catalina 22 knowledge.

I know what you mean. Even though we sail most often on Lake Pend Oreille where there’s a very active sailing community, we don’t live there and so can’t take advantage of their clubs to exchange knowledge. I’ll try to remember to add more detail to my posts for those who need that level of info. One of my challenges is to also make this blog general enough to be relevant to as many pocket cruisers as possible.

I believe the heat shrink tubing that I used on my standing rigging was this: 1/2 in. White Polyolefin Heat Shrink Tubing (3-Pack) . It needs to be only large enough to slip over the crimped sleeves then shrink as small as possible. That particular tubing only shrinks down to about 1/4″, so it won’t be tight around the 1/8″ shrouds but it keeps sails and lines from snagging on the thimble and sleeve edges and the wire ends. It also gives the rigging a more finished, professional look like the original rigging.

I shortened my forward lower shrouds 8-1/2″, which is close to the closed length of each quick release lever of 8-3/8″ from the bottom pin to the top-most pin position of the lever. They have two more top holes spaced 1/2″ apart that are lower that you could also use. The amount you shorten the shrouds by isn’t critical since you will leave the turnbuckle attached above the lever for fine tuning. As for the actual length of the shrouds, they should be about 12’10-1/4″ before shortening according to this diagram from the 1987 Owner’s Manual but double-check your current lengths first as there was considerable variation between boats and years.

By the way, here’s ads for two levers currently on eBay: NEW JOHNSON MARINE QUICK RELEASE HIFIELD LEVER STAINLESS SAILBOAT Hobie Shroud Extender Quick Release Hyfield Lever 1/4″ Holes 10049

Best of luck with your purchase. I hope you get a good one and we’ll see you around here as you fix her up!

Great information $tingy! One thing people may want to keep in mind, especially if they’re salt water sailers, is that the heat shrink will hold moisture at the swage and it’s virtually impossible to inspect for corrosion in that area already, even without the heat shrink. it’s a trade off one needs to conceder when building new rigging. what I do on my own boat is to leave it bare, but slip a short (12-16″) piece of 1″ pvc pipe over the lower end the the shrouds, which also covers the adjusters. moisture doesn’t collect and the cable ends, cotter pins, and other poaky things are kept away from your sails.

That’s a good point, Russ. It really is a trade-off. The tubing can help prevent water from getting into the swages in the first place but if it does, then it’s trapped there longer before it dries out. Ideally, after a five years or so in a salt water environment, we should cut the tubing off and do a closer inspection, then tape back over them.

Ironic that you should mention PVC turnbuckle boots. Watch here the day after Christmas 🙂

Where is the rigger located? In FL, by any chance??

In Spokane, WA, but there should be industrial riggers in your area. Look for one that supplies stainless steel cable for architectural hand railings, it’s the same stuff.

How did you achieve the making of the backstay with the pigtail? Did the maker create the braiding necessary to create the pigtail? e.g. Backstay, split backstay, split backstay bridle.

If you’re referring to the short pigtail attached to a single backstay that is used to hold up the boom when the mainsail is lowered, yes, the rigger made a new pigtail on the new backstay. If you’re referring to the adjustable backstay that I recently wrote about, I did not make a pigtail on that backstay. I use the topping lift instead.

I am finishing a homemade sailboat. Landlocked in Kansas. No stainless steel cables in stock, I have checked. Willing to order the 1 x 9, 1/8″ 316 cable and do the swaging myself. Planning on using eye and turnbuckle studs,at the ends of the cables as I do have turnbuckles left from another boat. These are for standing rigging. Question: can I use a swager tool bought from lowes for under $30 to get this job done on such small diameter wire?

If you’re talking about the Blue Hawk Swaging Tool model AC1058 item 348539 , then yes. That’s the same type of tool that most riggers use. There is a smaller tool that is made like a pair of dies with bolts that you tighten with a wrench to make the crimps but I’d shy away from it. Just use copper ferrules and observe the guidelines that are available only from rigging companies like Loos & Co so that you use the correct number, position, rotation, and spacing of ferrules, thimbles, and crimps.

Best of luck finishing your project! $tingy

Hi $tingy, I believe the issue that Russ mentioned regarding the extra corrosion from putting the heat shrink on the fitting isn’t so much the trapping of the moisture but the lack of oxygen to the surface of the stainless steel. Stainless can cope with moisture excellently as long as it has access to oxygen to enable it to build up a protective oxidation layer. For the same reason many riggers advise against taping up stainless fittings. Love the article though, and I’d be interested to find out what you think about Dyneema as an alternative to rigging with stainless.

Hi, Matthew

I think Dyneema is an interesting alternative and might have an advantage in some applications like high performance racing due to its very low weight aloft and the simplicity of low friction eyes instead of traditional blocks. But for the average guy cruising and club racing, it’s a novelty and he’s better off with standard parts and the wide availability products and services. I have a friend who pursued the synthetic route and by the time he was set up to make his rigging and factoring in the extra labor for splicing and pre-stretching plus the shorter lifespan of Dyneema it wasn’t any more economical.

Thanks for your question, $tingy

Great article, I am going to do exactly what you did including the addition of levers on the forward lowers and forestay. I also like the swaged eyes on both ends of the wire instead of swaged threaded stem. Do you happen t have the hole to hole measurements of the wire you had built? That would save me a bit of measuring. You mast lowering video showed me how to lower the mast single handed while the boat was on the mooring. The only hiccup I had was the mast wanted to swing from side to side when it got near the Mast-up. But no damage done.

I don’t have my exact forestay measurement handy but it’s the standard length shown in the table in the article. I didn’t modify it for a quick release lever, I simply replaced the turnbuckle with the lever and set the mast rake angle with the adjustment holes in the lever and fine tune it with my adjustable backstay.

The mast will want to swing a little from side to side when you’re raising or lowering it so just be careful for the first 45 degrees or so until the shrouds start holding it centered. If you use a 1/4″ hinge bolt in the mast step instead of the stock 5/16″ bolt, it will allow a little wiggle room without binding or bending plus it’s easier to insert and remove. That bolt never really has a load on it so strength isn’t an issue.

Check out the Dyneema! https://www.riggingdoctor.com/life-aboard/2015/8/10/synthetic-rigging-conversion We have guys in the marina with it almost two years on and zero signs of deterioration. They get remnants from cordage houses pennies on the dollar. I would have replaced with the synthetic but I was too much of a newb. No more stainless cable for me.

Hi, I’m surprised that no one has mentioned a concern about using two different metals, stainless, and copper, for these hand-pressed sleeves. In a marine environment, aren’t you guys concerned about corrosion? Worst of all, you have no way of seeing the progress of the corrosion. I’m going with the traditional rolled stainless swages or maybe even drop forged, which I just discovered here: https://www.savacable.com/Content/Images/uploaded/sava_cat.pdf (see p. 16) Thanks, Rick Owner of a Merit 25, with 3/16th head stay and back stay.

Hi, Richard

Stainless steel and copper are very close to each other on the nobility scale so they do not react to one another very much at all. Just look at the pictures in this post of the over 30-year old rigging. The sleeves are still holding strong and the wire underneath them is unaffected. Metals that are far apart from each other like stainless steel and aluminum will react to each other noticeably as I show in Beware of Galvanic Corrosion! so that’s why you would not want to use aluminum sleeves.

You mentioned using 1/8″ 1×19 wire for standing rigging. Would the running rigging for a Catalina 22 use the same diameter for 7×19 or does it need to be larger? Also, what size would you recommend for the keel-lifting cable? I didn’t see it listed in the keel maintenance article.

If you have half wire, half rope halyards and want to keep them that way, use the same diameter in 7×19. The keel lifting cable is the same diameter too. For more about replacing your standing rigging, see How to Replace Your Standing Rigging for Less . And for more about the keel lifting cable, see point #3 in Five Swing Keel Maintenance Blunders and How to Prevent Them .

Best wishes, $tingy

Interesting, I compared your lengths with the book that came with my boat and with real life lengths after a mast failure and that is what I found (totals): Forestay is 27′ 5.5″ Upper shrouds 25′ 11.75″ Forward lower shroud 13′ 6″ Aft lower shrouds 13′ 4.75″ Why? I don’t know, but I had to redo several lines (not very complicated process and cheap). Thanks for rough measurements as it allowed to arrive to some measurements.

What year is your boat? The lengths that I gave are from the owner’s manual for the pre-’86 design.

Lots of very useful information here to save money when on a limited budget without sacrificing safety

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> > Please support our sponsors and let them know you heard about their products on Cruisers Forums. 29-12-2009, 13:31   Boat: Careel 22 and rig need replacing about every 10 years for crusing sail-boats? And at todays prices, one could expecct a quote of around $70,000AU + (around $50,000US +) for and rig on a 40 to 50' sail-boat? I would apprecate all replies from those that know, specially "Full-time folk". Calm seas and good winds to all. Bill 29-12-2009, 14:17   Boat: Sceptre 41 . I have got quotes for sails for my 40' and they range from $8k for a and a main and I replaced the standing on my boat. That cost me $10k. This was rod and increased the quite a bit. if it were wire you could get away for about half that . Probably less if you did the yourself. I have never heard of anyone replacing their after ten years. Except on a boat. 29-12-2009, 14:36   Boat: Morgan OI 413 1973 - Aythya for 25 years and I have replaced the standing rigging (shrouds only w/swedges) twice and the sails once. The main, 120 and mizzen costs me about 6K in 1992 and my rigging cost me about 2k on each occassion; however, I did ALL the myself. I simply ordered the measured lengths and their swedge fittings. I did replace one chainplate of 12 over the 37 year age of the boat and I have had no need to replace turnbuckles, toggles, or masts over that time. I have inspected and refinished much of this regularly. I think the high costs you hear of are only typical for owners that this tasks to professional rigging companies, not the approach that is typical for most fulltime cruisers. 'take care and joy, Aythya crew 29-12-2009, 14:54   Boat: Cat in the med & Trawler in Florida for 25 years and I have replaced the standing rigging (shrouds only w/swedges) twice and the sails once. The main, 120 and mizzen costs me about 6K in 1992 and my rigging cost me about 2k on each occassion; however, I did ALL the work myself. I simply ordered the measured lengths and their swedge fittings. I did replace one chainplate of 12 over the 37 year age of the boat and I have had no need to replace turnbuckles, toggles, or masts over that time. I have inspected and refinished much of this regularly. I think the high costs you hear of are only typical for owners that this tasks to professional rigging companies, not the approach that is typical for most fulltime cruisers. 'take care and joy, Aythya crew 29-12-2009, 15:06   Boat: Nordhavn 47 . Sails quotes are running 6-7K for main and genoa. Jim 29-12-2009, 15:32   Boat: Roberts 44 Offshore . Complete and Mizzen from Rigging Only, $4500 including . This is every part except chainplates. 29-12-2009, 15:40   Boat: Gozzard 36 system for about $13K more. 30-12-2009, 05:47   Boat: Caliber 40 main for our Caliber 40. The total cost for all three sails from UK Halsey was $7700. Can't say about the rigging. We will probably be in the market for new standing rigging in the next year or so. Caliber 40 hull #55 30-12-2009, 05:57   Boat: Roaring Girl: Maxi 120 ketch, 12 long coast for 3 years before we did that, including some fairly hairy short-term moments. When we rerigged in 2006, it was about GBP3000, but we are a ketch! Your insurers might have a view on length of time too. Similarly lots of UV will shorten your sails' lives - so that will effect your budgets for replacement. Secondly where you buy your sails can vary hugely in price. We bought a new main for our 40' ketch in 2008. We got quotes in the UK, and - and we could have bought two in for the EU prices. The China one, including tax, etc was around GBP1000. The other two quotes were both just over GBP2K. We are very happy with the quality of the sail. There were problems with the cover which they replaced free with no arguments. Some people want their sail maker to do the first bending on etc, and that can be very useful. You do need to get your measurements absolutely right. But it's a huge saving to bear in mind when you make the decision. So the you started this with seems very very high to me, even if you're not up for doing all the re-rigging yourself. 30-12-2009, 06:48   Shop in and here is what they gave me. The quality and were great and the price seemed to be the best. Sails (Main and 135%) $5000 Standing Rigging $4800 Tide Sail Track $1250 $1000 I have a 42' and was looking for this for a while. We will see how they hold up but so far so good. 30-12-2009, 13:45   Boat: Careel 22 on vessels of 40 to 50', i.e. Which were more suitable for full-time use, before jumping in. I had become, almost, set in believing a 36 to 40' would be best size-and-fit for me but...being a retired MV man (merchant service) I have kept the door open on which vessel, sail or MV, I would be better of with. I have no wish to buy in a rush then repent at leisure and, as I'm also a man of limited means, I need to be careful with my funds...don't we all I found this site, and that's where I found the "sail and rigging replacement costs" that started this thread. Philip, the owner of the site, may have, by accedent, entered an extra zero, but from what you "people who know" say...He's way out on the figure of $50,000US. Again, thank you for responding with useful figures. They are a big help to anyone in that "make-your-mind-up...Before you buy" mode 30-12-2009, 14:09   Boat: Valiant 40 (1975) and have prices on sails. I would probably count at least 7k for rigging and 10k for a almost new set of cruising sails. I pulled the chainplates off, cleaned them and took a good look at them. Replaced almost all of them due to pitting and cracks (after 35 years) But then again, i don't want to worry about them for another 35 years... 30-12-2009, 16:38   Boat: 50ft powercat, light,long and low powered type and performance expectations and requirements. My decision to go over sail was based on quality alloy rotating mast, Anderson winches and mostly Antal fittings elsewhere, batcar system, square top cruiselam or similar sails, with screechers and kites in socks built by a specialist . replacement every 5 to 7 years based on previous sail longevity, headsails similar. Wire replacement every 5 years, forestay earlier again based on wire on previously owned vessel. This worked out to be a pretty big number Of course I could have put up a telegraph post with gal wire and second hand rags or new ones, but for the style of vessel (performance multi capable of actually sailing in 5 knots of breeze) it would seem a pointless exercise and a lot of can be bought for the cost of rig, sails and hardware and replacement. 30-12-2009, 21:04   Boat: C & C Landfall 38 30-12-2009, 23:50   Boat: Careel 22 type and performance expectations and requirements. My decision to go over sail was based on quality alloy rotating mast, Anderson winches and mostly Antal fittings elsewhere, batcar system, square top cruiselam or similar sails, with screechers and kites in socks built by a specialist . replacement every 5 to 7 years based on previous sail longevity, headsails similar. Wire replacement every 5 years, forestay earlier again based on wire on previously owned vessel. This worked out to be a pretty big number Of course I could have put up a telegraph post with gal wire and second hand rags or new ones, but for the style of vessel (performance multi capable of actually sailing in 5 knots of breeze) it would seem a pointless exercise and a lot of can be bought for the cost of rig, sails and hardware and replacement. Thread Tools Rate This Thread : Posting Rules post new threads post replies post attachments edit your posts is are code is are are are Similar Threads Thread Thread Starter Forum Replies Last Post jeffbrainard Classifieds Archive 3 13-11-2009 06:27 RayfromFrance Monohull Sailboats 36 27-08-2009 23:22 Born to Cruise Monohull Sailboats 5 02-06-2008 04:25 bg9208 Deck hardware: Rigging, Sails & Hoisting 3 11-02-2008 19:49 dustinp Construction, Maintenance & Refit 27 18-11-2007 05:06 No Threads to Display. - - - - - - - Privacy Guaranteed - your email is never shared with anyone, opt out any time. Berthon Winter Collection Latest issue August 2024 In the August 2024 issue of Yachting World magazine: News Few finish a tempestuous Round The Island Race European rules are eased for cruising to France and Greece Olympic sailing… Yachting World Digital Edition Pip Hare explains when to check and replace your standing rigging October 1, 2020 To prepare my IMOCA 60 Medallia for the Vendée Globe race, I have completed a full change of all the standing rigging If the mast is stepped, the only way to thoroughly inspect rig fittings at the masthead is to go up there... Photo: James Mitchell This was a ‘no brainer’ decision as my rigging has been around the world once already and I would never take it into the Southern Ocean for a second time. In some ways it is easier to estimate the life of synthetic rigging, as it comes with a recommended mileage or stated lifespan if it can be UV damaged. For those with stainless steel rigging the decision on when to replace can be a harder one. The main difficulties boat owners face when assessing the condition of the rig is the inability to see the first signs of wear, partly due to the majority of our rigging being out of sight in the sky, and partly due to the nature of metal fatigue itself. Professional rig checks often lead to last-minute repairs for transatlantic ARC sailors. Photo: James Mitchell The fact is that metal fatigue is inevitable and cannot be avoided. The only thing that will vary is the time a component takes to fail. So how can we make a good assessment of when rigging should be replaced? There are a number of factors that will affect the lifespan of your standing rigging, most notably the initial quality of the rigging used and the type and frequency of sailing that you do. Rigging quality The quality of both wire and rod rigging is important because in both the crack initiation and growth phases of the fatigue process can be accelerated by metal impurities or unseen manufacturing defects in the component itself. Using high quality wire rigging from a well known supplier is a bigger initial outlay but the grade of metal used and manufacturing process should prolong the life of your rigging. Article continues below… How to prepare your yacht for anything: Preempting chafe, rig and crew problems This is Part 2 of Vicky Ellis’ guide to preparing your yacht for any eventuality. You can read Part 1… Ocean damage – tales of chafe, jury rigs and a shark on the rudder in the ARC Crossing the Atlantic is hard on your gear, as the reports of ocean damage during the annual Atlantic Rally for… When buying a secondhand boat, find out when the rigging was last replaced and try to get a copy of the invoice detailing who the supplier was – if you’re not sure, ask a rigger to take a look at it. How you sail In crude terms, every time your boat is used it is advancing the process of metal fatigue through the application of cyclical loads, so a boat that is raced regularly and hard will be approaching the point at which rigging failure could occur faster than a boat which is cruised intermittently. This doesn’t mean that lightly used boats will never have to consider changing their rigging; even a dormant boat will be experiencing load cycles in some form when the mast is up. Just the action of the wind on a mast is enough to load up the rigging and any stays left loose will move with wind and wave action. It’s not unusual for rigging wires to fracture around the swage collar To minimise the stress caused by these load cycles while sailing it’s important to tune your rig regularly so the rigging is always at optimum tension. This will help ensure that changes in load are less extreme. If you are not confident to set up your own rig tensions then ask your rigger to help, and later be sure to check your rig throughout the season. Regular rigging checks There are a couple of ways to test for early signs of fatigue not picked up by the naked eye; they include dye and NDT (non-destructive testing). Water can enter swage terminals leading to crevis corrosion. Photo: Rupert Holmes Both these surveys need to be carried out with the rig down and it may be worth balancing the overall cost of carrying out the test against the additional cost of re-rigging the boat, especially bearing in mind that if any faults or impurities are discovered your insurance may then require you to change the rigging anyway. Regular visual checks should pick up the first signs of crack growth. Look for rust on T-terminals and at swage ends, check for powdery corrosion where T-terminals insert into the mast and any signs of cracking in the same area. Run your fingers up and down the last metre of wire above or below the swage, feeling for deformities; if the wire is not uniform the chances are that one of the individual wires has broken, even if you can’t see it, and the stay and its partner should be replaced immediately. Visual checks for rust and powdery corrosion are your first line of defence. Photo: Rupert Holmes Checking the head of T-terminals is a harder job as they are inside the mast itself. This will need to be done with the mast removed so a full ‘mast down’ survey carried out by a professional rigger should be scheduled at least every three years. Picking up early signs of corrosion or replacing select components after a thorough inspection is a worthwhile exercise because it may extend the lifespan of your standing rigging. Inevitably your insurance policy will play a big part in your decision making about whether to replace your rigging. There has been a general assumption within the sailing community that insurance companies require rigging to be replaced after ten years, but I’ve found this is not actually the case; it’s far less prescriptive than that. A small crack has developed in this stemhead fitting just above the forestay clevis pin The IPID (Insurance Product Information Document) with your policy should give you a clear indication of what is covered in the event of a dismasting and may also provide some food for thought on when you should replace. Insurance companies do not stipulate a timeframe at which your standing rigging should be replaced, but they do stipulate that all parts of the boat should be regularly and appropriately checked and maintained. In the event of a dismasting claim, the insurance company would expect to see evidence of rigging maintenance and checks carried out at appropriate intervals by a qualified person; DIY inspections will not be accepted. It is also worth taking note that in most insurance policies a depreciation element will be applied. This normally constitutes a deduction of one third of the new value of a rig and would start to come into play when a rig approaches 10-12 years old. Emotional cost There’s a consequential impact of a dismasting which cannot be covered by an insurance claim, and that is the human and emotional cost. In my own sailing career I’ve had two failures of standing rigging components which I spotted while sailing and was able to jury rig for a safe return to port. I’ve also experienced a dismasting, and I can vouch that it’s not a pleasant experience. As a regular racer I take the health of my rig very seriously, perform checks before every major race and take my rig down annually for a thorough inspection. But this is the schedule that is right for me and the miles I sail, and would be considered overkill for the average sailor. Only you can give a proper evaluation of how often and how hard your boat is used, but that makes you ultimately responsible for setting the maintenance and replacement schedule. Metal fatigue Wires can break, unseen, within swaged terminals Crack initiation starts when the metal first gets put to work and is caused by the cyclical loading of metal components. In the case of standing rigging on a sailing boat, this is the loading and unloading of shrouds and stays. Think about the windward shrouds loading up, while the leeward side relaxes: this cyclical loading causes cell structures to develop within the metal, these cells gradually harden and then develop microscopic cracks. The crack growth stage follows next and these microscopic cracks will develop into larger ones, which may eventually be visible to the naked eye on the surface of the metal component. The speed of the crack growth phase will alter depending on how often and how hard your rigging is put under load. Ultimate failure is caused when a crack exceeds a size that results in the component no longer supporting load. Failure will be sudden. First published in the September 2020 issue of Yachting World. Running Rigging Calculator Get an instant estimate for your boat, select your boat brand. Leaves warehouse: 12 business days Copyright 1998-2024 SB Owners, LLC. All rights reserved. Policies | Contact Us Average Sailboat Maintenance Costs (with 4 Examples) A lot of new boat owners overlook the maintenance costs of sailboats - and maintenance can get pricey quickly. To save you from surprises, here's a full overview of costs you can expect when owning a sailboat. What is the average sailboat maintenance cost? The average annual maintenance cost of sailboats is between $2,000 - $3,000. However, larger boats of 30 feet and up will cost considerably more. The actual total annual cost is $3,000 to $7,000, due to other recurring costs like docking and insurance fees. However, what you'll actually pay really depends on the type of boat you have and what you do with it. Not all maintenance is as important. If you're on a budget, you can maintain your boat reasonably well for just $1,000 / year. I'll explain how below. On this page: Breakdown of yearly maintenance cost, different costs for four situations, seasonal maintenance, recurring longterm maintenance, incidental maintenance costs, other costs to keep in mind. Let's start by getting a good overview of the different maintenance costs. Here's a full overview of all the recurring maintenance from most to least frequent. I'll explain each line item in detail later on. The average maintenance cost will be roughly $255 dollars per month for boats under 30' or just under $3,000 per year. Maintenance item Frequency Cost Winterizing each fall $500 Dewinterizing each spring $100 Bottom paint 2 years $500 Batteries 4-6 years $600 Running rigging 5-10 years $5,000 Sails 5-10 years $2,000 - $5,000 Standing rigging 10 years $4,000 Safety equipment 10 years $500 Engine 20 years $5,000 Deck hardware 20-30 years $1,500 As you can see, most of these costs are longterm recurring maintenance costs. Some of these might not apply to your situation. Also, there are a lot of costs you can save on substantially if you do simple maintenance yourself or have a simple boat. Let me explain. The total maintenance cost varies a lot, depending on the following factors: length of the boat saltwater or freshwater use racing, cruising, or liveaboard use sail area and rig type of the boat Still, we want a general feel of what to expect. That's why I've calculated the average maintenance costs for four different types of boat below: Maintenance cost for four boat types: Situation What do you do? Average cost 40 ft bluewater cruiser everything except winterizing $3,225 24 ft daytripper seasonal maintenance, hull, engine, rigging $1,600 34 ft liveaboard batteries, hull $1,550 30 ft budget only bare essentials $275 Your specific maintenance cost will vary depending on what type of boat you have and how you'll use it. Below, I'll go over four different situations and explain what type of maintenance you'll most likely will and won't do, and what the price tag is for each situation. 24 ft Daytripper Most people starting out will get a smaller size boat and use it for day trips and weekend trips. These boats have less moving parts and less critical parts. It will be important to maintain a couple of parts, though: seasonal maintenance With a first boat, you most likely won't invest in new sails or the standing rigging if you don't have to. The total maintenance cost for a small daytripper will average around $1,600 per year or $133 per month. Maintenance item Frequency Cost Winterizing each fall $50 Dewinterizing each spring $50 Bottom paint 2 years $500 Batteries 4-6 years $600 Running rigging 10 years $5,000 Sails 10 years $4,000 Standing rigging 20 years $4,000 Safety equipment 10 years $500 30 ft Budget Sailboat What would be the maintenance cost if you were on a tight budget? Well, for starters, I'd recommend doing most small maintenance yourself and ignore all non-essential. On sailboats, however, there aren't a lot of non-essential parts. But here are some things we could do out to save some big bucks: don't set aside money for long-term recurring maintenance (rigging, sails, hardware, and batteries) don't outsource engine maintenance, instead do oil changes ourselves antifoul less frequently (every 4 years) budget DIY winterization Winterizing your boat yourself can cost you as little as $50 for antifreeze and an oil change afterward. The total maintenance cost on a tight budget can get as low as $275 per year, or $23 per month. Maintenance item Frequency Cost Winterizing each fall $50 Dewinterizing each spring $50 Bottom paint 4 years $500 Safety equipment 10 years $500 34 ft Liveaboard Liveaboards that don't really sail that much have less maintenance to do in one way, and more in another. The sails, rigging, and engine will be less critical if you won't take her out very often. Also, you'll have plenty of time doing odd jobs yourself, since you'll be living on the boat. On the other hand, it will be very important to maintain hull health, as even small leaks will lead to condensation and mold, which is horrible for your health and living standard. Replacing electronics won't be very important - however, your batteries will need to be replaced more often. Important maintenance: hull cleaning and painting replacing batteries If you live on a boat in a location where it falls below freezing temperature (good luck!). Maintenance item Frequency Cost Winterizing each fall $500 Dewinterizing each spring $100 Bottom paint 2 years $500 Batteries 4-6 years $600 Safety equipment 10 years $500 Engine 20 years $5,000 The total maintenance cost for a liveaboard will average around $1,550 per year or $129 per month. 40 ft Bluewater Cruiser If you own a bluewater cruiser, your maintenance cost will go up a lot. Saltwater is a lot more corrosive, and the stress on your rigging and sails will be higher. Sun wear and constant use will wear down the sails and rigging even more. Your engine will wear out faster, and you'll need more incidental repairs as well. The interval of longterm maintenance will increase dramatically in these conditions. On top of that, maintaining your boat properly is critical. In marine environments, everything can go wrong exactly one time for it to be critical. You want a reliable boat, which means you'll fix anything that needs fixing immediately. Your sail area will most likely also be larger, which means your sail replacement will be more expensive. One advantage is that you might not need to winterize if you're a fulltime cruiser since you'll probably spend your winters in Bermuda. Maintenance item Frequency Cost Bottom paint 2 years $500 Batteries 4 years $600 Running rigging 5 years $5,000 Sails 5 years $4,000 Standing rigging 10 years $4,000 Safety equipment 10 years $500 Engine 10 years $5,000 Deck hardware 20 years $1,500 The total maintenance cost for a bluewater cruiser will average around $3,225 per year or $269 per month. There are three types of maintenance: seasonal maintenance - yearly recurring jobs long-term recurring maintenance incidental maintenance Let's go over each type and break down which costs to expect exactly. Winterizing Winterization is an often-overlooked cost, but it can be one of the largest expenses each year. If you're like me, and not so lucky to live in Florida, you need to winterize your boat. Failing to winterize it will increase your maintenance cost over time, as the engine wears out more quickly, and your plumbing and equipment will fall apart. Winter storms and ice can damage the hull and mast as well. Learn all about the dangers of failing to winterize here . It's the best way to protect your boat in wintertime, period. It consists of two parts: Winterizing - costs $500 to $1000 - This is the preparation for winter storage. You flush the cooling system with anti-freeze, and the boat gets wrapped in a shrink wrap cover. Winter storage - costs $50 per ft on average Here's the full winterizing checklist For dry storage, part of the process can be to shrink wrap your boat. Now, this is expensive, and it is hard on the environment. Some boaters don't shrink wrap in the winter because of it. Here's the average cost to shrink wrap a boat Antifouling Your boat will need bottom paint roughly every 2 years (could be longer, but to be safe, let's keep it at two). It's also called antifouling paint because it helps to protect your hull from weeds, barnacles, and so on. Barnacles can slice through your boat's bellow! So you don't want them on there. On average, it costs about $15 to $20 per foot to get your sailboat hull painted professionally. For a 26' sailboat, that's just 500 bucks. Money well spent. Read more on the cost of antifouling your boat Batteries have a limited number of charge cycles. Deep cycle batteries (which are best for household functionality) need replacing every 4-6 years and will cost roughly $600. If you use your batteries extensively, they will most likely need replacing after 3-4 years, for example, for liveaboards or full-time cruisers. Replacing the sails Good quality cruising sails will need to be replaced every 10 years or so. The cost of new sails is on average: 26' Bermuda Sloop rig will cost you about $1,000 - $2,500. 34' Bermuda Sloop rig will cost you about $3,000 - $5,000. I won't go into detail, but I have written an in-depth article about the cost of new sails (opens in new tab). It's a really helpful post (with a formula) if you want to know what to expect. Replacing the standing rigging Most people that own a sailboat will have to replace the sails and rigging at least once in their lifetime. Replacing the mast is uncommon, but if you're unlucky and get demasted, it will need to be fixed. So I've added it to the "be aware this might happen" list - but won't add it to the monthly recurring costs. Standing rigging are the cables that support the mast. Click here for a full walkthrough with diagrams. If you need to replace the mast and boom, prepare to spend anywhere between $15,000 - $25,000. The cost of replacing the standing rigging is, on average, $4,000 every 10 years. Running rigging The running rigging consists of all the lines, sheets, and so on that is used to haul and operate the sails. It wears with time due to UV exposure, flogging, strain from the wind, and regular use. In most cases, you'll only have to replace your running rigging every 5-10 years, but it will cost you $5,000 on average. Deck Hardware Deck hardware consists of the bullseyes, tiller , eye straps, cleats , and so on. All this small hardware needs to be replaced every 20-30 years and will amount to about $1,500. Engine & Engine Parts Gas engines run for about 1,500 hours, diesel engines run for 5,000. After that, you'll need to change them out. Most engines will last you about 20 years, depending on the amount of use and whether you use it properly. Gas engine will last a lot less long than diesels. A standard 15HP or 20HP outboard gas engine will cost you about $5,000 - $6,000 and needs replacing every 20 years or so. If you do the work yourself, it's more something like $1,000 - $1,500. Read more on the lifetime expectancy of marine diesels here Replacing the engine sailboats with inboard engine: $5,000 - $10,000 sailboats with outboard engine: $1,000 - $1,500 most powerboats (inboard engine): $15,000 - $35,000 small outboard engines (2-5 hp): $1,000 - $1,500 large outboard engines (100+ hp): $10,000+ installation cost: $200 - $2,000 Installation Prices The installation of the engine will cost a few hundred to a couple of thousand dollars. With inboard engines, this is not something you can easily do yourself - it isn't just unscrewing a motor and screwing a new one in. The deciding factor of how much will this cost exactly is whether you can simply bolt the new engine in or whether you have to adjust all other parts, including shaft logs, exhausts, electrics, and so on. Of course, if you have an outboard engine the installation price will be nothing more than a few drops of sweat, swearing, and back pain for a day or two. Read more on boat engine replacement costs here. Risers and Manifolds cost of 1 riser : $140 - $200 cost of 1 exhaust manifold: $150 - $300 cost of labor: $500 - $1,500 Most people need 2 risers + 2 exhaust manifolds. Parts total: $600 on average That's just what it is. Where you can really save some money, is on the labor. Labor total: $1,000 on average It's about a days worth of work. A professional needs roughly 8 hours to get the job done. Read more about the cost of replacing risers and manifolds here. Boat starter replacement Inboard engine (and generator) starters cost from $40 - over $1,000 depending on the engine. Outboard starters run from about $100 - $500. Skilled marine technicians charge from $75 - $150 per hour. Your costs will range from a couple of hundred dollars for a small outboard up to over a thousand for a large or difficult to reach inboard. That's a broad range, but if you know what you need for your boat, then you can get a better idea of the cost. The final price depends on two things - what type of engine you have, and how hard it is to get to the starter. Read more on the average cost to replace a boat starter here. Replacing safety equipment USCG safety regulations require you to replace safety gear regularly. Lifejackets have to be replaced every 10 years. Flares have to be replaced every 42 months. You could consider buying a LED electric distress light instead, which will last you a lifetime. If you carry a life-raft you'll need to replace that every 12 years as well. Adhering to the minimum safety requirements shouldn't cost you more than 150 - 250 dollars every 5 years. But if you want the good stuff, need more fire extinguishers, plan on spending more like $600. If you want a life raft, that's another $1,500. To avoid you have to go cheap on your safety gear, I've put it in the budget for $500. If you want to know exactly what the USCG safety requirements are, including checklists , definitely check out my article here. Hull repairs Electronics update Recovering a sunken boat Sailboat mast replacement Keel repairs Rudder repairs Replacing or refabricing boat cushions One-time costs: Registration : costs of registration differ per state, but usually run anywhere from $3 - $10 per foot. Taxes : differs per state and country. Most governments want you to pay property tax and sales tax. Sales tax is usually about 5%. Property tax varies and is more complex, so I'll leave that up to you to figure out. Trailer : $1,000 Sailing club initiation fee : $1,500 - $4,000 Recurring costs: Mooring : $10-15 per foot per year (can be much higher for prime locations) Insurance : typically 1.5% of the total value of the boat. So a $50,000 26' cruiser will cost 750 bucks. Maintenance : a good rule of thumb is 10% of the boat value. Expect to spend anywhere between $500 - $2,500 per year for small to mid-sized boats. Fuel : depends on how much you use the boat and the engine, but on average something between $100 - $150. - Find out how much fuel a sailboat uses in my article here (opens in new tab). International License : if you want to sail on international waters, you have to get your ICC (International Certificate of Competence ). Plan on spending anywhere between 400 to 500 dollars. Safety equipment : plan on spending anywhere between 150 to 600 bucks for lifejackets, first aid kit, and distress signals. Winterize boat : $2,000 Sailing club: $800 - $1,500 Vonnie Harrington Dear improvesailing.com webmaster, Your posts are always well-supported by facts and figures. Tressa Valencia To the improvesailing.com admin, Your posts are always well-referenced and credible. Leave a comment You may also like, how much sailboats cost on average (380+ prices compared). Turns out that owning a sailboat is pretty affordable. OK, it isn't cheap, but it can absolutely be done on a budget. In this article, I'll show you exactly what to … How Much Does it Cost to Dock a Boat for a Year? How Much Do New Sails Cost? The Average Cost to Shrink Wrap a Boat (per foot) The Cost of a Boat Engine Replacement The Logbook The captain's notebook, first mate's journal, ports of call, the book locker, photography by laura, cruising lealea on youtube.   I have now replaced the standing rigging on Lealea, V1860, twice. The first time only because a number of years had passed since the original rigging was set up and I figured that it was better to renew the rig before the mast came crashing down. The second time was because the wire I had used the first time turned out to be defective and started unraveling half way between Honolulu and Cape Flattery. I am not an expert rigger but I am capable of learning from my own mistakes as well as from the experience of others.   Lessons learned:     I learned that all stainless steel wire is now made in Asia. Even though the spool may be marked “Made in USA”, that only means that the wire rope was laid up in the US. The strands used and the steel they are made of comes from offshore. Caveat emptor. The original rigging was made in Europe and is vastly superior to anything available on the market today, as are most of the original equipment pieces on the Vega. We must keep in mind, however, that even the best quality rigging will eventually reach the end of its useful life and must be replaced. As a result of our experience and after examining the wire we replaced after our Pacific crossing in 2007, now recommends that new wire be examined inch by inch under a microscope before use; a tedious and time consuming process.   To inspect your existing standing rigging, the best way is to take it down so you can easily access both ends and the entire length comfortably and safely. This may not be practical. A good alternative is to carefully inspect the areas most subject to failure which are the lower end fittings and the first few inches of wire. First clean and polish the fittings then examine them with a powerful magnifying glass. You are looking for cracks or deep pitting. If you find any, in any of the swaged end fittings or in any of the individual strands of wire it is time to replace the rig. While you are at it, check the turnbuckles, toggles and chain plates. It is my opinion that if you still have the original turnbuckles on your Vega, it is probably time to replace them but it will be difficult, if not impossible to obtain replacements of equal quality steel today.   If the rig checks out you are probably good for another season of day sailing and weekending in local waters. If your plans include serious racing, extended voyaging to distant shores or if you found defects in your rig it is time to replace it. This is no place to scrimp or cut corners.   While it is possible to replace the rig with the mast standing, it is much easier and safer to work with the mast on sawhorses at waist level. If you are preparing for cruising or a season of racing, you should already have the mast down as part of the inspection process. This is a good time to completely inspect and recondition the mast. I’ll cover that another time.   With apologies to Bree, there is more than one way to skin a cat. This article assumes that you are not going to simply call the boat yard and tell them to replace your standing rigging but there are several options for the do-it-yourself Skipper. Which option you choose will depend on your budget, how involved in the process you wish to be or how much of the work you want to do yourself, what geographic area you sail in and what your long term sailing plans are. The easiest way would be to simply take your old wire to a rigging shop and have them make up new stays and shrouds with swaged end fittings. The lowest cost would be for you measure the old rigging and order new stays and shrouds with swaged end fittings from a chandlery (West Marine offers a rigging service that has proved satisfactory for many sailors). The highest cost and most work would be to buy the wire and cut and assemble the rigging your self using mechanical end fittings. The advantages of swaged fittings installed by a rigging shop are that the end product is less costly and less work for the boat owner. You have no doubt noticed that all new boats come with swaged end fittings on the standing rigging. This is not because they are better. It is because they are cheaper, both in materials and in labor, providing you have the machine and a trained operator. If you decide on swaged fittings, shop around. Swaged fittings are as good as the swage machine used and the skill of the operator. Properly done they are as strong as the wire itself but there will be no way for you to tell. Choose your rigging shop wisely.   The other option is to buy the wire and make up your own rigging using mechanical end fittings like Sta-Lok or Norseman brand. These two are slightly different but work on the same principle. The same skills and tools are required and the same procedures apply. We used Sta-Lok fittings on Lealea but everything here applies equally to Norsemans.   After you have decided on swaged vs. mechanical fittings comes the choice of wire. The stainless steel alloys most commonly used in rigging are 304, stronger and cheaper, and 316 more corrosion resistant but more expensive. If your long term plans include sailing in the tropics, choose 316. If in doubt, check with your local chandlery, rigger or marine surveyor which is best in your area.   I have been asked for the specifications as to length of the shrouds and stays for the Vega. Yes, it would be nice if you could just look up the specs and order the whole rig. Unfortunately, it doesn’t work that way. All the riggers I have talked to have told me that manufacturer’s specifications, especially on a boat as old as the Vega, are meaningless. The boat may have been re-rigged or modified by a previous owner. There may have been differences between individual boats during production. They want the actual measurements from the individual boat to be rigged.   Before you take the mast down make sure the mast is straight and the shrouds are properly tensioned. The stays are less critical if your Vega has an adjustable backstay. Take note of each turnbuckle. Measure the overall length of the turnbuckle. Record the pin-to-pin length for each. If any are “Two blocked” or let all the way out you will have to take this into account in your measurements for the new wire. If you are replacing turnbuckles or adding toggles don’t forget to take that into account. When the new rig is adjusted the turnbuckles should all be approximately at the mid point of their adjustment range. If your rig does not include toggles at the bottom of the shrouds, consider adding them. Don’t forget to factor them into your measurements.   Once the decisions are made and the mast is resting on sawhorses the first step is to get a roll of masking tape and tag each shroud and stay. Mark them: “Port Aft Lower”, “Port Upper” and so forth. In theory, and no doubt in the manufacture of new boats, both sides are the same length. Yours may or may not be. You need to know. Mark them before you take them off the mast. Once they are marked, get a one quart yogurt or cottage cheese container and a pair of needle nose pliers. You will probably need a can of penetrating oil or WD-40 and a non-metallic mallet and drift as well.   Starting at the masthead, remove the cotter pins from the clevis pin that holds the head stay to the toggle. Leave the toggle there but soak the pin that holds the toggle with penetrating oil or WD-40. We’ll get to that later. Throw the cotter pin away. Put the clevis pin in the cottage cheese container and coil the stay. Secure the coil with masking or duct tape and lay it aside. Easy, wasn’t it? Now that you’ve built some confidence remove the pin from the back stay at the masthead and soak the large pin like before.   You will have to disassemble the split backstay so move back down to where the upper and lower backstays are connected and take a look. I have seen two or three different set ups for the connection. Lealea originally had a nicro-press fitting forming a loop in the middle of the lower backstay wire with swaged fittings on the ends. We replaced that the first time we re-rigged with two triangle plates and two separate lower backstays. However your backstays are arranged, they will be held together with clevis pins and cotter pins. Remove the cotter pins and throw them away. Put the clevis pins in the cottage cheese container. Coil and tape the wires. OK. Now you know the drill. Remove the shrouds. Throw away the cotter pins and save the clevis pins. Coil and tape the wire.   If you are having your new rigging made up at a rigging shop just bundle up all the wire and take it to them along with the notes and measurements you took of the turnbuckles before you took the mast down. Let them know if you plan to replace the turnbuckles or add toggles. Put it all in writing and make sure you both clearly undersand what is to be done. If you are going to order your rigging made up from a chandlery or West Marine, its time to take some careful measurements.   If you are lucky, you have access to a wooden wharf or pier where you can lay out your old rigging, get some large nails and a hammer. Drive a nail into the wharf leaving an inch and a half or so sticking up and put the eye of the end fitting over it. Stretch the wire out tightly along the wharf and nail the other end. Measure. Record. Repeat. Put on your thinking cap. Get out the notes you took when the mast was up and the rig adjusted. Do the math. Don’t stress out too much. This is not rocket science. A half inch one way or the other won’t make much difference but there is no reason to be sloppy either. Be as accurate as you can, check your work and go with it. Are the measurements of the shrouds, left and right, the same? Close? Within and inch? Good. You know what to do. Fill out the form or whatever and place your order.   OK, You two guys just chill out for few minutes. I’ll get back to you in a bit.   You are probably wondering; if swaged fittings are both less expensive and easier and are universally used as original equipment on new boats, why would anyone choose anything else? The main reason, and it is a big one, is that with mechanical end fittings you don’t need a big machine to make up new rigging or effect repairs. You can do it yourself. Also, if you keep your boat long enough to do the job twice, the second time is vastly less expensive than any other option because the end fittings are re-usable. You can re-rig the boat for just the cost of the wire and new wedges.   If you have decided to go with mechanical fittings, lay out your old rig and measure the eye to eye length of each piece, do the math, make the adjustments and record the results. Go to the chandlery or rigging shop and buy the wire and end fittings. You may want to discuss the project with the riggers. It can’t hurt. They may have some advice or be willing to help. Port Townsend Rigging was a big help to us. They insisted on cutting the shrouds and stays for us, let us use their shop and inspected Lealea’s old fittings to make sure they were good enough to re-use. After we finished they came to the boat and checked my work.   If you come back with one long coil of wire instead of individual shrouds and stays pre-cut to length. Here is a way to cheat a little: Drive two nails side by side in the wharf about two inches apart. Slip the eye of one of your old wires over one of them, stretch it out and nail down the other end. Install a new fitting on one end of the new wire and slip it over the other nail, stretch it out alongside the old wire. If the old wire is the correct length, just cut the new wire and install the new fitting. If not, make the adjustment.   A clean cut is essential. If you have to cut the wires yourself, you will either have to buy a heavy duty, good quality cutter; or use a guide block and hacksaw. A guide block is nothing more than a piece of 2”X2” lumber with a hole drilled lengthwise and a guide cut halfway through bisecting the hole. I have had the best results with the hacksaw and block method and it has the advantage of not requiring a tool you probably will need to go out and buy. Tape, measure and mark the wire. Slip the end to be cut through the hole in the block. Line up the mark with the guide cut and cut off with the hacksaw.   Now that you have a good clean cut, disassemble one of the new end fittings and slip the nut over the end of the wire. Un-lay the outer layer of wire from the core and slip the wedge over the core. Re-lay the outer wires over the wedge, sliding the nut up as you do to hold the wires in place while being careful not to get any of the strands in the slot in the wedge. This will prevent the wedge from compressing and the fitting will not assemble properly. Once the wire is neatly re-layed, screw the other half of the fitting, the eye, down over the wedge and the wire to form the outer layer over the wedge. Not too tight, Just enough to begin to form the outer wires. Remove the end and check to make sure the strands are evenly spaced around the wedge and none of them have fallen into the slot. Fill the socket of the eye end with sealant. I used silicone, the riggers from PT Rigging use Sikaflex. Take your pick. Screw the fitting together. This time hold the nut in a vice or large adjustable wrench and use a wrench to tighten but don’t use anything longer than six inches to crank the fitting down. Too much force will deform the relatively soft 316 stainless steel fitting and render it unsuitable for re-use later. Sealant should squeeze out around the wire at the base of the fitting. Wipe the excess off with a rag. Good job. One down, nineteen more to go.   Back to the mast. At the masthead we left the pins that hold the toggles for the head stay and back stay soaking in penetrating oil. With luck, they will now come out without too much effort but you may need a mallet and a drift. First remove the cotter pins and throw them away. Then remove the large pins and the toggles and put them in the cottage cheese container Leave the toggles that secure the upper shrouds in place. Moving down the mast to the spreaders, remove the bolts that hold the spreaders and put them in you container. Put the spreaders someplace where they won’t get stepped on, tripped over or sat on. Now remove the toggles for the lower shrouds. These are just stainless steel tabs that fold over pins swaged or peened into aluminum ears welded to the mast below the spreaders. Just push them off with your hand. You may need to spread them a little but it shouldn’t take too much effort.   If you are going to re-use your turnbuckles, go get them and bring them and your cottage cheese container full of stainless steel bits back to your garage or workshop. Bring along the spreaders too. For this next step you will need a bench motor with a buffing wheel and some jeweler’s rouge and a polishing disc (like a green pad only brown). Don’t forget your eye protection. (You can do without the power tool but the process will be very time consuming) Clean and polish all of the toggles, turnbuckles and the large pins until they look like new. Using a good magnifying glass, carefully examine each piece for cracks, excessive pitting and deformed or elongated holes. If you are too cheap to buy new clevis pins start polishing them too. When you’re done inspect for pitting and cracks. Otherwise, throw them away and buy new ones. On Lealea there are 36 3/8 inch pins in the standing rig. At $5 each as of September 2007, it’s worth considering.   The spreaders need a bit more care than the stainless steel stuff. Being made of aluminum, they are a bit more fragile. Remove the steel bales from the tips and the bolts that hold them. Clean and polish the tips and bases and inspect for cracks. Some corrosion, especially at the tips is inevitable. The spreaders are nothing more than aluminum tubes with end fittings attached. If the end fittings are cracked or badly corroded you will have to repair or replace them. This could present a problem as new replacements are not readily available. You may have to have them fabricated. I was able to have a machine shop weld up and re-machine a cracked inboard spreader fitting. The machinist commented “Lucky they used such high quality alloy in this”. You may have to get creative to find alternative solutions if your spreaders are damaged beyond repair.   When you go to pick up your new rigging from the shop, don’t forget to pick up new clevis pins and a box of cotter pins sized for the pins you buy. If you are re-using your old clevis pins, bring one along so you can be sure to get the right size cotter pins. If possible spring for the higher price 316 stainless cotter pins. You will be glad you did. Regardless, use a magnet to test the cotter pins before you use them. When buying in bulk, it is not uncommon to find mild steel (Which will quickly rust away to nothing) mixed in. Pick up marine grade stainless steel replacements for the bolts that held the spreaders and spreader tip bales and stainless steel nylock nuts to secure them. Before you leave the chandlery there is one more thing you will need: A tub of Lanocote, AKA “Sheep grease”. Pick up some ice and beer on the way back to the boat.   Time to re-install the pins and toggles at the mast head, re-attach the spreaders and the toggles for the shrouds below them. Remember how hard it was to get those pins out at the masthead? Use Lanocote liberally anywhere stainless steel comes in contact with aluminum as well as on the threads of your turnbuckles.   Attach the shrouds, head stay and upper back stay to the mast. You may or may not want to assemble and attach the lower back stay at this time: Your call. It depends mostly on how high above the deck your upper and lower back stays connect. I attach my lowers to the chain plates and connect the upper and lower last. In part, how you do this will depend on whether you raise your mast yourself using a tabernacle or call for the crane.   Run the upper shrouds over the spreaders and attach the bales. Spreader boots will protect your sails from chafe and hold water against the spreader tips causing corrosion. Port Townsend Rigging recommended leather boots. If you use plastic boots make sure they are slit open on the underside of the spreader to allow moisture to drain. Regardless, coat the spreader tips liberally with Lanocote. When the rig is set up, the spreaders should be angled upward slightly. The angle should bisect the triangle formed by the shroud and the mast and is fixed by the inboard spreader base fitting. On the Vega, the spreaders are free to fold upward. Tug on the signal flag halyards to ensure the spreaders are seated against the mast at the pre-set angle. If you don’t have flag halyard blocks on the spreaders, you will have to rig a light line over the spreader to seat it or go up in a bosun’s chair to push it down.   Once the mast is up and everything is connected, set up the shrouds to the desired tension by holding the eye fitting on the end of the wire with a wrench so as not to disturb the lay while you turn the body of the turnbuckle. You may think that this is obvious but I have seen too many boat owners setting up rigging by twisting the body of the turnbuckle with a screwdriver and ignoring the wire. You may want to have a rigger check the tension of your rig but beware the rigger or anyone who wants to tune the rig as if it were a violin. Too tight is not good and can contribute to mast step compression. Everyone has their own idea of how tight the rig should be so I won’t go into that here. I tune mine on the loose side but I don’t race and I sail conservatively. Once you are satisfied with the adjustments, safety wire or cotter pin the turnbuckles.   That beer should be nice and frosty by now. powered by Network Solutions® Forums New posts Unanswered threads Register Top Posts Email What's new New posts New Posts (legacy) Latest activity New media Media New media New comments Boat Info Downloads Weekly Quiz Topic FAQ 10000boatnames.com Classifieds Sell Your Boat Used Gear for Sale Parts General Marine Parts Hunter Beneteau Catalina MacGregor Oday Help Terms of Use Monday Mail Subscribe Monday Mail Unsubscribe Replacing standing rigging Thread starter Berkeley 30 Start date Nov 8, 2023 Catalina Owner Forums Catalina 30 Berkeley 30 We've got a 1985 Catalina 30 with standard rig and the standing rigging needs to be replaced. It has a roller furler and there's basically no way we can replace it ourselves (you have to cut off the fitting at the bottom of the stay, slide the sections off, put them back onto the new stay, and then swage on the new fitting after putting the foil onto the stay). So, off to the rig shop. We were horrified to discover that the yards we called around here (SF Bay Area) wanted upwards of $8,000 to do the job, including a place that planned to do it with the mast in the boat. Does this sound as crazy to others as it does to us? Is there a more affordable way to do this? I know we could take the other wires off the boat ourselves and schlepp them down to the rigger to have new one's fabricated, but I'm guessing that wouldn't take a huge amount off the cost. (I'm waiting for a quote on that.) Are we missing something?   Don S/V ILLusion The cheapest way to re-rig is to remove the mast.   You can replace the forestay yourself if you use swageless fittings such as Sta-Lok for one or both ends.   The cheap part of re-rigging is the cost of the wire and fittings. The expensive part is paying for the labor to install the rigging. For reference the total cost of the wire and swaged end fittings for our 36' boat was only about $3500. We removed the rigging and sent it to Rigging Only in Fairhaven, MA. They duplicate the rigging and sent it back. We did not replace the turn buckle barrels or the deck studs. It is easiest, and a DIY job if the mast is down. This also gives you the chance to replace any wiring or lights that may need attention. Using Standard-lock fittings is also a DIY option. Rigging Only   dlochner said: Using Standard-lock fittings is also a DIY option. Rigging Only Click to expand In 2018 I paid $1900 for my C30 standing rigging, except the forestay. The mast was down so the rigger took off all the rigging, went back to his shop to make up the new and back to the boat to install. When inspected the fuller he determined it was less than 10 years old so the forestay didn’t need to be changed.   Tally Ho said: Is that Sta-Loc ? Spell check correction? Or a new fitting it was not aware of? Greg Click to expand SBO Weather and Forecasting Forum Jim & John It is one of those Boat challenges that happens on a 38 year old rig. Noted you are in the San Francisco Bay. Your rig gets a work out greater than some sailing only on sunny moderate wind days. In the Bay Area $8K is not a surprise. My 35ft boat was $11K. Mast was down for 3 months (boat was in it’s slip no need for the boat to be out on the hard all that time). I had the mast stripped and rebuilt by a master rigger to ocean passage standards. This carried a higher cost. I know a Catalina 36 that had the standing rig replaced in Canada 2 years ago. Cost was about $4K USD. The mast stayed in place and the rig was replaced one line at a time while at the dock. I believe it was a 3day project. I started with the info about your sailing location. You want to careful about how the work is done. How long you want to sail and what type of sailing you plan to do on the boat. A rig failure is not a good option in the middle of the San Francisco Bay.   Project_Mayhem Catalina Direct has new standing rigging for the tall rig for less than $1200. Since your in SF, lets jack up the price for mast stepping and call it 3k. Add in some wiggle room and we're at $4500 Standing Rigging Kit for C-30 Tall Rig, Custom Match   This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register. By continuing to use this site, you are consenting to our use of cookies. Accept Learn more… BOAT OF THE YEAR Newsletters Sailboat Reviews Boating Safety Sails and Rigging Maintenance Sailing Totem Sailor & Galley Living Aboard Destinations Gear & Electronics Charter Resources Ultimate Boat Giveaway Rigging Redo: A Switch to Synthetic By Behan Gifford August 23, 2024 Updating the standing rigging on our Stevens 47, Totem , wasn’t an intentional part of the 40-year refit that we recently completed. We had re-rigged in 2019, anticipating our departure to the South Pacific in spring 2020. The pandemic scratched that, and we embarked on a significant refit in 2021 that instead left this rig on saw horses for a year and a half. Putting the rig back up was among the last tasks during our extended stay at Cabrales Boatyard in Puerto Peñasco, Mexico. As we neared mast-stepping day in November 2023, my husband, Jamie, busted out his rigging kit. That’s how we refer to the 10X loupe that serves as the key for scrutinizing components at a level that human eyes just can’t do without magnification.  Some halyards showed age and wear, but we already knew this and had a replacement Dyneema/polyester double braid replacement line on hand. The one surprise? Totem ’s backstay. Our Backstay’s Weak Link New in 2019, the wire still looked fine, as did the swages. But two Sta-Lok insulators on the backstay —an assembly that enables that aft wire to be used as an antenna for single sideband radio—didn’t. Surface crazing on the black nylon portion of the insulators, which were added in 2008, suggested ultraviolet degradation. During our 2019 rerig, we chose to reuse the backstay insulators. The fittings inspected well. Some people consider mechanical rigging terminals such as Sta-Lok, Hayn Hi-MOD and Norseman to be indefinitely reusable. They’re not. Jamie considers their lifespan at two rigging cycles (or about 20 years) maximum. Our old insulators met safe criteria, so we saved money by keeping them. Still, we knew to look out for trouble. In the past few years, friends on two different cruising boats had rig failures due to broken insulators. Both crews practice good seamanship and don’t skimp on safety. Melissa White has written about losing the backstay on Galapagos (in her blog, Little Cunning Plan , and also in 48°N magazine ), three weeks into a passage from Hawaii to the Pacific Northwest. With only 500 nautical miles to Cape Flattery, Washington, their insulator snapped in half in the rolling swells of the North Pacific Ocean. They were in conditions that allowed them to stabilize the rig, and they altered course to a closer point of landfall. The crew of Miles wasn’t so lucky: When their insulator failed, their rig came down . Never mind the fact that they’d had a rigging inspection only months before, and no faults had been found. When they dismasted, they were in degrading conditions approximately 100 miles east of Eleuthera, Bahamas. In an admirable effort, they secured the wreckage and bashed overnight to the nearest safe harbor in San Salvador. So, Jamie took another look at our setup last November, and he condemned Totem ’s insulator. The conclusion was easy, but the decision about next steps was not. We were days from putting Totem back in the water, looking for a weather window to sail south. Five family members were flying to meet us in a bay 800 nautical miles south of the boatyard. Any delay in stepping would make us late for the family Christmas. Could we get to Puerto Vallarta with the existing backstay, or could the rig be compromised on our trip south? And, in the time between putting insulators on the new rig in 2019 and wrapping an extensive refit in 2023, we had changed our stance on single sideband use. Once our only offshore communication, the hardware no longer earned a place on Totem because multiple satellite options are available today. Since we weren’t installing the SSB , we didn’t need new insulators. This opened options to consider in replacing the backstay. One of those options was Dyneema, which is a strong, lightweight line made from synthetic ultra-high molecular weight polyethylene fibers. Dynex Dux is Dyneema that’s put through another cycle of heating and stretching to get every fiber in every yarn bundle to be exactly the same length. It’s lightweight, super strong and has virtually no stretch, making it a great alternative to wire for rigging. We knew this because in 2008, Jamie had installed a Dynex Dux solent stay and inner forestay on Totem . He had also installed a Dux backstay on a friend’s boat in Puerto Rico in 2017, and loved the results. With Totem now our focus, we reached out to Colligo Marine, the US distributor for Dynex Dux, rebranded as Colligo Dux . Colligo’s founder, co-owner and lead engineer, John Franta, helped us. Picking up the backstay became a perfect excuse for us to drive to Southern California for Thanksgiving with cousins. (Shipping into Mexico is fraught with issues.) Barely a week later, we were on our way back to Mexico with the new backstay in hand. Shifting forward a few weeks, Totem was in Banderas Bay in time for family Christmas, after a conservative sail south with the old backstay in place. The new one was installed in the slip at Marina Riviera Nayarit. The hardest part of replacing the backstay with the mast up? Detaching and lowering the old backstay, because it was so heavy. The new stay was in place minutes later. Wire vs. Synthetic Rigging If Dux is so great, why didn’t we replace all of our standing rigging with it back in 2019? Well, we did think about it. At the time, Jamie chose wire because of the cost of additional hardware necessary in the shift to synthetic rigging. We simply didn’t have the resources to consider the upgrade. There are other considerations for a switch to synthetic rigging, too. They include abrasion, chafe, ultraviolet longevity and thermal expansion. Stainless steel wire has just as many issues and is harder to inspect well. Our new backstay was an easy choice this time around because of the weight savings, ease of installation and absence of chafe points. We’re now getting ready to sail around 2,000 nautical miles from Hawaii to Micronesia. We aren’t sure yet if we’ll make landfall in Tarawa, Kiribati, or sail the slightly shorter distance to Majuro, Marshall Islands. Ideally, we can visit Tarawa first (it’s harder to get there later), but the weather will make the decision for us. Meanwhile: Totem Talks will be on again before we sail west. For this next free livestream, we’ll have a circumnavigation roundtable with our friend and neighbor here in Hawaii, Dustin Reynolds . He didn’t just circumnavigate: Dustin holds a Guinness World Record for the first solo voyage around the world by a double amputee (arm and leg).Bring your voyaging questions, and sign up to be notified by email for the date of the livestream. More: DIY Projects , Hands-On Sailor , How To , rigging , Sailing Totem More How To Top Tools for Sailboat Cruising: Must-Have Gear for 2024 Made for Shade: Cockpit Cover Options Blackwater Wisdom for Holding Tanks 5 DIY Basics For Your Diesel Engine North Sails Parent Company Buys Doyle, Quantum For Sale: 1984 Camper & Nicholsons 58 Sailing Avocet : A New Adventure Begins Digital Edition Customer Service Privacy Policy Terms of Use Email Newsletters Cruising World Sailing World Salt Water Sportsman Sport Fishing Wakeboarding Forum Listing Marketplace Advanced Search About The Boat Gear & Maintenance SailNet is a forum community dedicated to Sailing enthusiasts. Come join the discussion about sailing, modifications, classifieds, troubleshooting, repairs, reviews, maintenance, and more! running rigging replacement cost for a 30ft Add to quote I had an idea to hire out running rigging replacement on a 30ft sloop, with nothing fancy, just a double braid polyester. The estimate turned out to be 1700-2000+. So I told the rigger to replace just the main halyard for now (and I will do the rest by myself). He wants close to $500 for the halyard. This seems like at least 4x or 5x the cost of materials. Does this seem reasonable or am being taken for a ride?   Don't know about the price but you may want to consider sta-set-x for the halyard as it is only a few penny's more than stay-set (double braid) but with less stretch. Also I would want to know if the shivs need replacing as that would up the cost. So if your mast is what less than 40' and you have the halyard run back to the cockpit you have maybe 90' of line probably 5/16" or 3/8" at about a $1.00 a foot retail and possibly a new shackle and about two hours maybe three at $100 an hour it looks like 3 to 4 hundred might be closer unless you are not telling us something. Like the boat is on a mooring a mile out in the harbor and the line parted and the mast needs to be climbed.   Here is a tip: do it yourself. It is actually pretty easy to do. Halyards are pretty easy to replace by stitching the new line onto an end of the old line and pulling it through. David is right that if your sheaves at the top of the mast are messed up this can be much more difficult to do. Most of the lines on your boat are easy to replace but the line may cost a significant amount of money. I'd guess that you could replace ALL your running rigging on a Tartan 30 for under $500 in materials. I'd consider getting this sewing tool to attach the 2 lines together: BAINBRIDGE INTL Needle at West Marine be smart about burning the ends of each line you cut.   When we got our Taran 27' about 8 years ago the PO spent the day with me and we replaced a sheet and and a halyard together. It was not difficult to do without going up the mast in a boasuns chair. There is also the trick of using a paper clip that has been bent into a double hook arrangement to grab each end of the line. You don't really want a joint between the lines that is fatter so splicing might or might not work as well as just sewing the two bitter ends together and covering with the rigging tape of your choice. I also really like to know how my running rigging lines are routed. DIY makes sense to me.   CalebD said: There is also the trick of using a paper clip that has been bent into a double hook arrangement to grab each end of the line. You don't really want a joint between the lines that is fatter so splicing might or might not work as well as just sewing the two bitter ends together and covering with the rigging tape of your choice. I also really like to know how my running rigging lines are routed. DIY makes sense to me. Click to expand... I replaced the main halyard and spin halyard on my previous boat. Had the eye splices done by Defender's rigging service and pulled them through using a light messenger with the mast up. Pretty easy job.   Zib, I'm with Caleb on this one. $300 worth of labor, hell, I'd be ashamed if it took me a single hour to replace an existing line with a new one. Buy an extra ten feet of line and a splicing kit and video, spend some time learning how to splice in whatever the end fitting will be and consider yourself well paid by the savings. Or run a messenger line with the old halyard, then drop the new line and eye off at a shop and have someone make the splice. That surely can't cost more than $75....and you can still feed the new halyard "backwards" with the messenger line that way. The rigger's time is certainly worth money, but three hours at a hundred apiece to run a halyard...I hope that includes a titanium shackle, because the price of gold is only $1600 an ounce these days and 24k plating doesn't need a dollar's worth of it.   I just spent an inordinate amount of time researching and then purchasing new running rigging. Fortunately I have all the original specs for my sailboat ... if you don't try looking here Sailboatdata.com is the worlds largest sailboat and sailing yacht database with more than 8000 sailboats, sailing yachts, and sailing dingies listed. I'm modifying deck layout and running everything back to the cockpit ... no real existing hardware (I have to purchase) so it was relatively easy to spec size. I sketched out each and every line ... measured what I could to determine what I wanted/needed ... read as many posts as I could here and on Cruiser's Forum and Anything Sailing regarding grade and quality ... personally spoke with 2 riggers and 3 chandleries ... got quotes from Cajun Rope (good place to look and compare notes as they have premade kits id'd for many size boats) and two other places as well as searching ebay for bulk ... and in the end ... ending up purchasing at R&W Rope ... (as suggested by SailingDog somewhere here awhile ago) ... great helpful people and very competitive pricing ... You might just give them a try ... (no affliation) and yes ... do it yourself ... I'm 63 and not the most mechanically inclined ... but it sure aids in learning ... hope this helps ... John   zibadun, 900 is out of the question. And why would you feel obliged to do business with someone who didn't give you a good faith quote on work you offered him? Your request for quote shouldn't be considered "bothering him" since he should be in business to be bothered by customers and happy for it. If you are not rerouting lines on deck and needing new hardware, running rigging should cost you not much more than the cost of the line. Splicing is easy with a little practice. I had never spliced double braid until last year. I picked up a couple of books and the splicing tools needed and practiced a bit, and now can put an eye splice in a line in just a few minutes. Also learned to back splice to terminate the ends of my running rigging. You should be able to re-use your halyard shackles if you are using the same size line you currently have. It's great to be self sufficient in every area you can be, and splicing running rigging is a skill you'll be happy to have. All the best, Will   I replaced all my running rigging w/ sta set custom ordered thru west marine for about 750. My boat is a 27 catalina and this included: main halyard w/ shackle jib halyard w/ shackle main sheet jib sheet travelers headsail furling line lazy jacks topping lift w/ shackle boom vang line   also, it takes about 5 minutes to replace a halyard, assuming the new one has the shackle and you dont have to go up the mast. I used twist tie wire that i removed the plastic coating from and "sewed" both ends together. Then i finished it w/ electrical tape. Worked great. 'Cept I got lazy and didnt bother sewing the lazy jack line since the halyards went so easy. I jerked hard on the wrong end of the line by accident and it did indeed separate. I had a guy from the marina reach the block with the line, which was about 10' off the deck with a ladder.   cost me about $500 to do Main, jib ,spinnaker halyards, topping lift and spinnaker pole topping lift, all with 3/8 Sta-Set line on my Alberg 30. I of course did this myself and lit took all of a morning. This also was buying 3 new shackles. I could never afford to sail if I had to pay someone repair simple things. I think you should try and tackle it.....Should be no problem!   Sta-set is cheap. are you asking for a replacement shackle? New splice in the line? Is it parallel core? If it's a double braid then it should be something like $60-$80 for the line. 70 for the splice 50ish for the install. So at the high end, it'll be $200.   Where are you located? I do rigging on the side, and could do it for less than 1/2 with better materials.   For future reference, replacing an existing halyard is a piece of cake. Quick and cheap. It takes all of 10 minutes and $5.00 worth of supplies. 1. Go to Home Depot and buy some super 33+ electrical tape- regular tape works but this stuff is 7 mil vinyl and stretchy. 2. Cut the shackle off the old halyard. 3. Butt the old halyard head end and the new halyard tail end together, wrap a couple of turns of tape tightly around the joint. 4. Spiral wrap (with gaps) from a foot above the joint to a foot below the joint. Wrap tightly. 5. Spiral wrap as above in the opposite direction. 6. Test by pulling as hard as you can. The joint shouldn't come apart as the spiral wrap compresses when you load it. 7. Pull halyard through mast. 8. Cut the tape off and you are done. Works every time- easy and very little skill. My suggestion for your halyard would be 8MM Novabraid Syntec from R&W Rope Warehouse. $.74/foot. Lower stretch than Sta=Set X for less money. I have no affiliation with anyone in the cordage business.   To be official I checked with my rigger and he said he would figure an hour plus materials. Sta-setx is about $1.00 a foot retail, the high-tech stuff can be 3 bucks or more so unless there is more to the job than we know it should be closer to $200 than to $500 for the standard cordage based on these calculations.   I used Sampson XLS Extra T and did the main and jib sheets, main, 2 jib and spin halyards, boom lift, ie 2nd main halyard for lack of better term. Probably spent 1200-1500 including new shackles and having Fisheries in Seattle do the eye splices at about $20 per. I have a 38' mast on my 30' boat! 50-100' jib, AS sheets, do not remember the main sheet or halyard off the top of my head, will swag halyards at about 70-80', inlcuding 10' for running back to cockpit along cabin top........I did the work myself other than the eye splices! Marty   all understood about the job cost. I have pointed the rigger to this thread and he can reply, if he likes. Thanks guys so much for your help, especially for tips on how to DIY.   ?             176K members Top Contributors this Month 486 IMAGES Boat Repair & Restoration. Sailboat Rigging, Varish, Carpentry How Much Does It Cost To Replace The Standing Rigging On A Sailboat at The R&W Rope Sunfish Sailboat Replacement Rigging Line Kit easily The R&W Rope Sunfish Sailboat Replacement Rigging Line Kit easily How Much Does It Cost to Replace Standing Sailing Rigging? Boat Repair & Restoration. Sailboat Rigging, Varnish, Carpentry COMMENTS Average Cost to Replace Standing Rigging (with Examples) Small sailboat (up to 30 feet) A 25-foot sailboat may require replacement of the forestay, backstay, and upper shrouds, which could cost around $2,500 to $3,500, including the cost of the rigging and labor. For small sailboats, the cost of replacing standing rigging can range from $2,000 to $5,000. Replacing Your Rigging Good question. Yes, doing it yourself will theoretically save money. For an average 40-foot boat, Cockerill estimates about $100 per foot to re-rig with wire rigging ($4,000), as well as the round-trip cost to haul and launch the boat and unstep and step the rig (an additional $2,500 or so). Average Cost to Replace Running Rigging (with Examples) The estimated cost of replacing your boat's running rigging with sheets is around $1,700-$2,000+. For an average 40-foot boat, you can expect to pay around $4,000 for wire rigging replacement, which may include control lines. The average maintenance cost for boats under 30 feet is around $255 per month, or just under $3,000 per year, so you ... How Much Does It Cost to Replace Standing Sailing Rigging? For a small boat (under 30 feet), you can expect to pay anywhere from $500 to $2000 for standing rigging replacement. For a medium-sized boat (30-50 feet), the cost will be somewhere between $2000 and $4000. And for a large boat (over 50 feet), you should budget for at least $4000, and potentially much more depending on the size and condition ... Explaining The Standing Rigging On A Sailboat The cost of replacing the standing rigging will vary greatly depending on the size of your boat and the location you get the job done. For my 41 feet sloop, I did most of the installation myself and paid approximately $4700 for the entire rig replacement. Replacing Your Standing Rigging The cost to replace standing rigging obviously varies from boat to boat. Give us a call, and we can give you a rough quote. With proper measurements (wire diameter, pin sizes, wire lengths), we can give you a very accurate price for the standing rigging itself, but there are often unforeseen complications during the job (bad spreaders, corroded ... Rod Rigging Replacement Cost: 2023 Breakdown The cost of rod rigging replacement ranges from $8,000 to $20,000. The cost of materials averages from $5,000 to $10,000, while the cost of labor is between $2,000 and $5,000. Expenses for equipment range from $1,000 to $2,000, while the cost of permits or inspections is estimated to be around $500 to $1,000. Inspecting, Maintaining and Replacing Standing Rigging Aug 14, 2015. It's one of the most important features on a sailboat, but many owners put standing rigging at the back of their minds when it comes time to do their pre-season safety checks. A prudent sailor should inspect his or her standing rig at least once each season and should know when the time comes to replace most or all of it. Standing Rigging on a Sailboat: Everything You Need to Know Inadequate rig tension can lead to excessive wear on other components such as sails or mast fittings, increasing their replacement frequency and cost. In conclusion, understanding and valuing the importance of standing rigging on a sailboat is essential for sailors of all levels. Replacing your Standing Rigging Once you have confirmed the wire diameter, the approximate length and identified the terminals, top and bottom, it is a simple online exercise to get an accurate estimate of the replacement cost on Standing Rigging. Alternatively, Team Jimmy Green can produce a costing based on the same information. Standing Rigging Cost: DYI vs. Rigger 3,705. Catalina 30 Mk II Cedar Creek, Bayville NJ. Jan 7, 2019. #7. Doc, I had all new standing rigging put on my 93 C30 TR last spring. $1795 plus tax by professional rigger. I like to and mostly have done my own work but when it comes to standing rigging, I know my limitations. How to Replace Your Standing Rigging for Less That's what I call a no-brainer. Following are approximate costs per foot (in 2014) for standing rigging from several popular sources compared to the rigging company in my area. Popular online Catalina parts retailer: $4.00/ft. complete. West Marine: $1.02/ft. cable only. McMaster-Carr: $0.85/ft. cable only. Sailboat Repairs & Rigging Swaging and splicing. Running rigging replacement. Standing rigging replacement. Lifeline and stanchion repair and replacement. Deck hardware sales and service. Spar and boom service and painting. Hydraulic service. Liferaft and man overboard equipment service. Hatch and portlight replacement and re-bedding. New Sails & Rigging Cost for a 40-50' Sailboat Seems like a lot for a 40' boat. I have got quotes for sails for my 40' boat and they range from $8k for a jib and a main and I replaced the standing rigging on my boat. That cost me $10k. This was rod rigging and increased the price quite a bit. if it were wire you could get away for about half that price. Pip Hare explains when to check and replace your standing rigging Run your fingers up and down the last metre of wire above or below the swage, feeling for deformities; if the wire is not uniform the chances are that one of the individual wires has broken, even ... Running Rigging Calculator Please note: Returning custom-made rigging will incur a 35% stocking fee. Does your boat have wire-to-rope halyards? This calculator specifies only all-rope halyards. Go to wire-to-rope halyards. 1-2-3 Done So select your boat, choose a color, decide if you want a shackle spliced on, and you're done. Average Sailboat Maintenance Costs (with 4 Examples) The average annual maintenance cost of sailboats is between $2,000 - $3,000. However, larger boats of 30 feet and up will cost considerably more. The actual total annual cost is $3,000 to $7,000, due to other recurring costs like docking and insurance fees. However, what you'll actually pay really depends on the type of boat you have and what ... Replacing Standing Rigging on sailboats by Chuck Rose Sailboat standing rigging maintenance, repair and replacement with photographs. Helpful information on re-rigging your boat by Chuck Rose. Home. The Logbook. The Crew. ... The lowest cost would be for you measure the old rigging and order new stays and shrouds with swaged end fittings from a chandlery (West Marine offers a rigging service that ... Standing Rigging Replacement A broken headstay led to a full rigging overhaul. Learn how one sailor transformed his broken boat back into a sailing machine. Standing Rigging Replacement Ronnie Simpson. Reaching out of the channel in a moderate breeze, Quiver leaned on her big, overlapping genoa and accelerated up to hull speed. Surrounded by a fleet of vessels of similar ... Replacing standing rigging The cheap part of re-rigging is the cost of the wire and fittings. The expensive part is paying for the labor to install the rigging. For reference the total cost of the wire and swaged end fittings for our 36' boat was only about $3500. We removed the rigging and sent it to Rigging Only in Fairhaven, MA. They duplicate the rigging and sent it ... Rigging Redo: A Switch to Synthetic Why we chose synthetic rigging for the backstay on our sailboat, Totem. By Behan Gifford August 23, 2024 ... why didn't we replace all of our standing rigging with it back in 2019? Well, we did think about it. At the time, Jamie chose wire because of the cost of additional hardware necessary in the shift to synthetic rigging. We simply didn ... running rigging replacement cost for a 30ft running rigging replacement cost for a 30ft. I had an idea to hire out running rigging replacement on a 30ft sloop, with nothing fancy, just a double braid polyester. The estimate turned out to be 1700-2000+. So I told the rigger to replace just the main halyard for now (and I will do the rest by myself). catamaran gulet motorboat powerboat riverboat sailboat trimaran yacht