søndag 10. november 2019

Zippers this time.


Although the subject is very prosaic, zipper quality can be of interest to sailors. We usually have been ordering from the US via eBay. It is the socalled Injection Molded type.

The #10YKK is a solid size that we use with canvas. They come in fixed lengths, and unfortunately we could find none for our 5meter+ lazybag project when we did it. But a domestic sailmaker company assured us that the coil zippers were just as good and durable. They can be installed at any length, so we ordered that type. 

It has been 5 years, but I expect a canvas zipper to last more than that without wearing out. Ours is starting to come apart. As can be seen on the picture, the coils on the coil zippers are sewn in place. This makes up the structure of the zipper, as opposed to the other more solid type. That solution is vulnerable to wear, as the treads will start to unravel if they are cut at a point. I would expect the zipper to disintegrate with continued use. It will need to be hand sewn for repair.




I would recommend the Injection Molded type wherever it can be used.

torsdag 3. oktober 2019

Bowsprit re-rigging


In some areas, mooring to a buoy is the only option available. This is often a simple, space saving and reliable solution, even though everyone knows about the general warning about possible lack of maintenance and thus strength.

I think there are som drawbacks with catamarans and buoy moorings. If you have a bowsprit, it is usually supported by wires from the lower bow. When the wind is low, these wires easily tangle with the buoy or make noises with it as the boat drifts. The standard Privilege bowsprit rigging I have seen only permits lowering of the bowsprit, and no wire disconnect. But I have seen bowsprits in the upright position on other catamarans, and found this interesting. So I have been thinking about how I could rerig our boat. The solution is not that complicated. The only parts that were not easily obtained or made were the hooks for the removable top thimbles in the dyneema lines. I chose a simple design, changing and altering two of the bolts holding the bowsprit bracket to form hooks.

It is quick and simple to lift the bowsprit before anchoring. (We always do this because the large Spade anchor will touch and eventually chafe the dyneema bowsprit lines when lowering the anchor). Just ease on the line holding the bowsprit up. The dyneema lines will slacken, and the thimbles are easily unhooked. Just let go of them, and they will stop running out at the blocks.

For preventing tangling when at a buoy, it is easy to unshackle the dyneema lines when the bowsprit is up. The lines can then be secured along the inside of the bows, out of the way. Even easier if a softshackle is used instead of my present solution with a coiled dyneema loop.

When lowering the bowsprit again, the thimbles have to be held with one hand while lowering the bowsprit low enough for re-hooking with the other hand.

It works fine and eliminates some problems with  buoys. But in Scandinavia we usually find buoys with high steel poles that are supposed to simplify tying up. The steel part is usually high enough to bang on the underside of any cruising catamaran drifting in currents or low winds. The Privileges with their center section is especially vulnerable. The only thing that works is stretching the bridle tight as a rope, leaving the buoy in the middle. Which is less than ideal if the wind picks up. That will happen at night when sound asleep….  :).





















søndag 7. juli 2019

Catamaran sailing gear



Early in this Teknisk tab i have expressed some views and shared some thoughts about maritime gear. All too often I find that it is not fit for the task. Understandable if I buy some general hardware items not specifically designed and produced for maritime use. Maybe understandable also if I buy some general leisure stuff meant for picnics etc. But not OK when provided by riggers, sailmakers and manufacturers of specific maritime items.


Before sailing out on a 2 year trip to the Caribbean and Bahamas, we changed the mainsail rigging from boom furler to mast track and slides. The aluminum furler boltrope mast track seemed too weak for really rough weather. Thus the sail had to be modified with batten receptacles. I had no experience at the time with  such a system, and relied on the sailmakers judgement. Which was poor. Most sailmakers will tell you they have multihull experience and knowledge if you ask them. Maybe most have, but also maybe with relatively small racing boats. The forces pounding the rig of a heavy cruising catamaran is something completely different. As we know, the righting moment is almost unlimited.  As I see it now, the sailmaker provided us with batten receptacles  that were in the Toys-R-Us League. And of course they started breaking during the voyage.


Two and a half years ago we needed a new mainsail. (The sailmaker of the previous one had given us wrong advice about a good sailcloth when considering a tropical cruise with that sail.) Now being a slightly more experienced buyer, I challenged the new sailmaker regarding the batten receptacles to be fitted. Selden FA 30. The best they have, and sufficient for our rig, according to him. I was a bit in doubt. I had 3 Schaefer 1900-10 batten receptacles that I had bought during our cruise, and suggested they could be used at the most vulnerable places. The sailmaker did not approve of the idea, and the Selden receptacles were used.


Selden is a renowned rigging gear manufacturer, and their equipment should be up to the task. But again, when outfitting fairly large cruising catamarans, forces and wear seem to be underestimated.
The first sign was when a FA 30 batten receptacle lid popped off, leaving the batten end loose. You do not like that, especially when the sail is up and wind loaded.


The receptacle lid hold the batten tension adjuster in place. When taking a closer look at the lid design, I found some solutions that I believe is in the Mickey Mouse watch category. The front end of the lid, which can be heavily sideloaded, is secured only with two tiny plastic studs and the outer perimeter of a securing bolt.



On this lid, one of the two plastic studs have broken off. The lid itself has cracked as shown in the detail.







The lid securing bolt hardly covers the lid at all.



The above pictures of the mainsail squaretop  batten receptacles are taken recently when we discovered the damage.. We have been sailing fairly brisk, but in no way unusual winds. Reaching in frequent 14-15 m/s (30 knots), one gust observed to 18 m/s (36 knots). One reef in the mainsail. Relatively flat seas. Should be no drama at all.


Disappointing that gear manufacturers are not delivering high quality merchandise. Knowledgeable sailmakers should demand the right stuff. And I will give feedback to my sailmaker about this.

søndag 26. mai 2019

Lightweight, light duty spreader pole


Sometimes it seems like a curse and not a coincidence, that when sailing downwind, the apparent wind angle so often becomes around 150 degrees. Which will make the genoa ineffective on many sailboats, even when using a barber hauler. One good solution is to bear off course some degrees. When sailing on the Scandinavian coast however, the track is often dictated by terrain and the archipelago. Zigzagging downwind will also mean jibes, thus having to reset the sails often. Including preventers and barber haulers.

Previously I believed that the wide beam of a catamaran was enough to avoid using such a spreader pole that I saw some monohulls using. But I noted that the monohulls sometimes, with the help of a pole, could keep the genoa steady while I could not. That was a bit embarrassing, so I decided that I needed to try a pole. The drawback of the poles that I could observe on board the monohulls is that they are bulky, some are heavy, and they are a bit difficult to stow. I see many placed up in front of  the mast. That is not ideal for the airflow over the leading edge of the mainsail.

So what to do then? I decided I would make a lightweight prototype. For use as a spreader only, not a spinnaker pole. In my garage were a couple of windsurfer masts stored, and the longest of them was the basis for the project. I would have preferred a carbon pole, but did not want to buy one as I did not know if the project would be a success or a failure. But carbon is lighter and stronger.

The outer end contains a dyneema rope loop that can move a snapshackle outwards by pulling or winching the attached rope inwards. The best practical reason for the loop is that the shackle can be connected to the genoa more easily when the genoa is not stretched outwards.

There is a small simple Spinlock jammer that holds the rope tight and the shackle out towards the pole end. That specific jammer is not the best solution, it tends to lose the grip if the line is jerked frequently. At least it must be pressed hard down to grip the rope properly. The low friction ring is there so the line can be angled off to a winch.



The snapshackle is attached to a Dyneema loop in the genoa clew. The length of this loop, the snapshackle and the snapshackle attachment to the pole loop all together give some length capacity loss for the whole system. After the first trial season an extension of about 30 cm (one foot) was put in because I wanted some more capacity. This gave a total length of 4 meters (approx 12 feet).

The pole has worked very well for us, we use it a lot. I also put in an attachment point for it at the base of the inner forestay so that it can be used with a spinnaker too. That also works well, but as the wind shifts forward and the spinnaker approaches reaching, we have to be ready to remove it. The force on the pole rapidly increases and the pole can bend and break. That has actually happened. But that was at the point where the one foot extension was put in. I did that fiberglassing job too hastily, and the joint was too weak.

A long windsurfing mast is required for such a project. The tip will be quite thin and flexible. I did cut off some of it, also because the outer sheave needs a hole to be cut for it. In addition to that there is the hole for the sheave axle. If the mast section is too thin, this point will be weak. That said, that specific area must be reinforced anyway. Our catamaran does not have the widest of beams, 6.5m. For larger boats, this concept may be too weak. But as a spreader pole ours has worked with no sign of overload. (Actually, I believe the force required to push the genoa out and stabilize it is not huge. Most of us have sometimes been standing at the boat side, holding the sheet out manually with our arms for a short amount of time to keep the sail filled.) For larger catamarans I believe parts of more than one windsurfer mast glassed together can work. 




The spreader pole attaches to the mast by a shackle. A carbon fiber reinforcement ring at the connecting point for the end fitting can be seen.





















This spreader pole stores easily attached to the stanchions by welcro tape. It even bends to follow the curve.


Some follow-up info regarding use with a spinnaker:



Sailing with the wind from behind, slightly in from starboard. Assymetrical spinnaker. Our simple setup is, I presume, like most other cruising multihulls for spinnakers. One guy and one sheet at each corner. We sometimes use only one guy and one sheet on the assymetrical, if the wind is expected to be stable.

Our mainsail is quite large, again like on most cruising catamarans, and will block a lot of wind for the spinnaker if the spinnaker is allowed to be pushed sideways downwind into wind shadow. This will happen if only using the beam of the boat for upwind support as is most commonly done. The spinnaker will be more unstable and less effective. Note the guy on the picture, pressed outwards and out of the main's wind shadow, instead of the opposite way. It can easily amount to 3-4 feet, and this can make a difference in sail efficiency. I think it really does help to get the spinnaker into free air and also at a better angle.

The non active sheet is used to pull the clew outwards and backwards. At fairly low wind speeds, the force on the spreader pole is not at all large as long as the wind is mainly from behind.





For spinnaker purposes, I found support for the spreader pole at the lower inner forestay bracket. Just drilled a hole for a shackle. And used some synthetic washers to stop any rattling. But I found that a stainless steel anti-chafe plate was nice to have in place to avoid ugly marks from the pole end fitting.

Again, this is a setup for fairly light conditions, not racing. But on the other hand, most people use spinnakers for light conditions.




onsdag 8. mai 2019

Deciding to test synthetic rigging


The recommended standing rigging change interval is as far as I have read 10 years. Many insurance companies will not insure a yacht with an older rig, or they ask a high premium. Our rig is approaching 20 years, but I have found no visible signs of wear. We crossed the Atlantic back and forth without worries with it when it was 15 years. However, experts point to the fact that you can not know the condition of swaged terminals, as they can not be inspected inside.

I believe the marine industry (and many others) keep maintenance and inspection intervals short to boost business. So, after careful consideration, inspection and googling, I usually have noe fear doubling the time for many products.

Well, for the rig we are almostat at the double point now. We plan to use the boat for many years to come, fate permitting. Therefore,  now would probably be a good time to change it.

As the multihull society is often rapidly catching up with new trends and products, I have of course read and heard about synthetic rigging. With its many advantages. And relatively little cruiser knowledge and experience. There are disadvantages too. But it sounds exciting.

After quite a bit of checking, I decided to give it a try. The cost savings would not be very large, due to several factors. Firstly, a riggers company would give a total price for a total job of installing a new stainless steel rig. I need a roller furling stainless steel forestay, so I had to go there anyway to have that done. Further, I do not have a solution for the diamonds in a synthetic version. I will have to wait, or have that also done by the riggers. And I wanted to buy a spare lenght of upper and lower shroud in case of miscalculating a splice. If all splices were successful, I would have cruising spares. They are light and fairly easy to stow.

The rope that is commonly used for synthetic rigging to date is SK75 dyneema, the prestretched and heat treated version is called Dux. There is information in the Colligo Marine website about rope and splicing.

The most difficult part for me was the calculation of the spliced shroud lengths. Most of the projects I have read about use lashings to tighten and adjust the shrouds, but for larger boats and heavy catamarans I read that turnbuckles are recommended. Turnbuckles are also fairly easy to adjust and you get an immediate impression of tensioning. But when using turnbuckles, the rope has to be spliced to a minimum and maximum lenght that is not within a large tolerance. Factors of uncertainty are how much the splices will shorten the rope, how much the splices then will restretch when tensioned, how will it be possible to prestretch properly, how much will the dyneema stretch when installed and tensioned?

Dux Dyneema is not unstretchable, it just stretches much less than other ropes. Like wire, which also stretches when pulled hard.


A technique that worked fairly well was to mark a point a distance (for example 2.5 meters for 15mm Dux) from the bitter end, when starting the first splice, that would be just outside the splice when the splice was finished.











Then use this calculation, after prestretch, to calculate where to cut the rope before starting the second splice.
For the prestretch I bought a 4 ton ratchet puller. A concern about such a puller is how easy is it to get 4 tons pulling power out of it? The 15mm Dux I pulled hard enough to break a cord or two due to friction in the reel (should have oiled it?). Still I have the feeling it was not quite enough.



I found some solid mooring points in a harbour in Oslo that I could use for the stretching.






After the prestretch of the first splice of all the lines, I knew where to cut them to achieve the desired length, using the exactly same splice. With the exception of one upper shroud, which ended up a bit longer than target, it seemed to work out well.


The splices themselves are not so complicated, I followed Colligo Marine's instructions, and did some test splices on smaller dyneema ropes. The fids required are maybe not the most common sizes, but it is easy to make DIY versions. I used some copper and steel scrap tubes, and fitted them with wooden tips as shown below.





For the 15mm rope, I found a heavy duty solution for the most demanding part of the splice:



You know you are working with strong rope when you are using a crowbar as a fid.




The rigging hardware is another area that needs a lot of planning. As thimbles are used in both ends of the ropes, not all products are useable. My previous system, ACMO, was not suitable. Nor were many others. The turnbuckles with forks and toggles would have to be wide enough to accept heavy duty thimbles. And also fit my chainplates. Upper mast connection to a thimble was also a challenge. The final solution was equipment from Blue Wave and some heavy duty shackles from Peterson.


The reason for using standard heavy duty thimbles is availability and price. I suppose it might be easier to find rigging parts using Colligo Marine terminators, designed to accept clevis pins. But I have not dug into that. Shipping and import taxes would rise the prices to unpleasant levels.


Colligo Marine tables and information were also used for the rope dimensions. As is common, the original rig wire specifications will be the reference for the stainless steel hardware. But for the ropes, a factor called creep will be dimesioning. Creep is something else than stretch, and when using the tables, one will find that the correct rope will have a larger breaking load than the original wire.


According to Murphy's Law, there will be surprises and setbacks when installing marine hardware. I knew that the clevis pins of the original rig were metric sizes. The new ones were imperial inches. Therefore, a slight widening of holes in the chainplate and mast fixing points were necessary. Easy match, I thought. But Marechal really had put some tough steel bushings in their mast. Dangling from my bosuns chair, sweating and cursing, I devastated my 19mm drill bit widening the holes from 18mm.


One detail that I have tried is to fit a simple 2 meter plastic tube, meant for electric cables, as lower end chafe protection. It must be installed before the second splice. Thus it can not be replaced. I do not know the UV Properties of such tubes, but they are cheap and worth the experiment. In addition there will be canvas chafe protection around the lower splices.






The ropes are now installed. Time will show how they will stand up to cruising demands. There are a few factors that are surrounded by some uncertainty for cruisers.


Obviously, as stainless steel has dominated totally for many decades, chafe will be on the list. According to the user experience I have read, the ropes will become a bit "furry" with time and UV influence. But they will be dimensioned structurally much stronger than stainless steel, and even some chafe will not weaken them substantially. I will try to avoid chafe the best I can.


Then there is hum. Some users report some humming from synthetic rigs, but it is not regarded as a problem or nuisance. We were quite scared when installing the upper shrouds. The mainsail dyneema halyard was used to support the mast while changing. It hummed like crazy. My wife looked at me in disbelief. Will it be like this? Fortunately not. There was no sound after installing the synthetic shrouds. But as we just recently have finished the rigging, we do not have experience from any length of time.

Report from june 2019: We do experience some more hum with the new rig. Obviously, as the wind picks up, there will be noise from all sailboat rigs. And from different parts of it. The wind hum now starts a bit earlier, and has a bit more bass to it than previously. But I have always had the feeling that there is more wind than there actually is when listening from the cabin, so the difference is not that great.  


What will happen in case of a lightening strike? Will the ropes burn? I have heard of no occurences, time will come up with user experience somewhere. Meanwhile, since we have a stainless steel forestay, I plan to install a copper cable from the seagull striker back to the chainplate. It will then hopefully work the same way as before. The chainplate is connected to the sea via the Dynaplate. Probably the same system on all Privilege yachts.


I do not know if insurance companies will object to synthetic rigging for long distance voyaging. Another issue may be the fact that you can probably not pop by any riggers shop and get a rig inspection and certificate? My impression is that not many places have this expertise.



On the side of positive bi-effects, weight savings is probably not enough to impress owners of fairly heavy Privilege's. The new rigging is approximately 20 kg lighter than the old system. For a catamaran, the fact that it is weight aloft is probably not as significant as on a monohull. The weight  difference would have been larger if using a lashing system instead of heavy turnbuckles. But as I have already tightened several times, I am happy with a system that makes adjusting fast and easy.


Update July 2019:
During installation of the rigging lines, it seemed that the longest upper shroud might be too long, depending on how much it would stretch and elongate in the spliced areas. This assumption proved to be right. I ran out of turnbuckle travel. Fortunately a shorter spare had been produced before leaving harbour for the summer, and it replaced the long one in mid july.

So now I have some new views on the prestretch procedures commonly distributed on internet blogs and discussions. My experience leads me to believe that the recommended short prestretch to the applicable value is not sufficient. It appears that the splices need to be stretched over some more time to settle permanently. The difference is significant. I tightened the turnbuckles almost as much as I could with a spanner. Only hours later I was easily able to tighten some more turns. The next day even more. A few days later more. A week later some more. Totally estimated 2-3 inches for my upper and longest shroud.

This would not be a problem with a lashing system dimensioned for some stretch. But again, lashings are not recommended for larger boats, and the frequent adjustments are cumbersome compared to turnbuckles.
If I had this knowledge when starting the project, I believe I would have had 2 options to get it right. The more unrealistic one would be to leave the lines in stretch for many days, reapplying tension successively. I do not know how I could have achieved this. Thus I would instead have made the splices 2-3 inches shorter, and used some rigging toggles to lengthen the shrouds  temporarily. Most probably the toggles could have been removed after some weeks of sailing. If not, given correct dimensioning, they could have stayed in place for a longer period.


Udate end of first season:

After the summer and a lot of sailing, the shrouds seem to have stabilized. But not before the lower shrouds are almost out of travel too. Still some tightening is possible, but I would have liked it to be much more. The tension will be released on all lines as soon as the boat is in the winter harbour. Thus the creep will be minimized.
Also, the plastic tubes intended as extra chafe protection were not a success. They are not fitted tightly, and as soon as there is vibration in the lines, the hum is amplified by the tubes. I have to be very careful not to damage the dyneema when cutting them away, thus this far I have only been able to remove the two largest. For the inner forestay I think I will need some other plastic chafe protection, as the genoa and its sheets are often flying over it at high speed and pressure when we tack. But I will try to use the old fashion split tubes that cling more to the stay. There is another problem with that solution however, a stormsail with metal hanks will probably chew up the plastic quickly. So a softer solution is needed. Dyneema softshackles is a possibility, but hanking the sail on in bad weather will be cumbersome. Then again, it is recommended to have the stormsail ready and hanked on when on longer passages.











tirsdag 30. april 2019

DIY sailmaker


We have ruptured more than one spinnaker while learning to sail and find the limits of our boat.  Expensive learning, fortunately we buy used spinnakers. Which I guess is easier to destroy....

A sideband is not so difficult to replace, but when one or more corners are totally torn off, we usually give up. However, after bringing a rupured spinnaker home and looking at it, Tove Irene wanted to try a repair. As we had other wreckage available, spare fabric could be found.

Wannabe sailmaking is of course not a guaranteed success. Replacing all the destroyed panels fully would be too complicated for such an uncertain project, so small panels on both sides across the tear and reinforced seams along the vertical panel lines is our solution.

Now at least we have a spare spinnaker. Time will show how it will perform.




This clew was completely torn off.




The top was also in bad shape.




Panels. Will they be strong enough?





Home based sailmaker.



fredag 12. april 2019

Fenderboards



It takes time to gain experience as a sailor. More time for some than others, maybe. I wondered for many years what was the purpose of the planks attached to the rail wire of some yachts. Never bothered to ask. Maybe I should have, it might have been beneficial to have such ones coming into a crowded harbour for the night.

Tying up to pilings for the night is not so common or popular in Scandinavia. You do not see that many yachts carrying fenderboards. And in the the majority of harbours you do not need them. But in some you can find unused possibilities in the high season if able to tie up to pilings, fully or partially.

Inspired by the Practical Sailor July 2018 issue, I this spring went on and bought a length of 1 1/2 x 6 inch pine plank. Maybe I would have chosen 2 x 8 if sailing out in the big world, but that size is considerably heavier.

I have seen some simpler versions, but I like the PS one. I want the fender loops, I believe they will prevent the fenders to act as a roller bearing between the hull and the board. The common solution is 2 fenders, but holes for using 3 fenders were drilled. Then again, probably no fender loop will be strictly necessary for the middle fender.

Also the recommended 5 feet length was accepted. Seems to be OK for storing inside or along the rail. And maybe still long enough to double as gangway in some instances, if joined with the use of a couple of  long transverse bolts.

To simplify storage, I want as few as possible permanent lines attached. Therefore the plan is to use dyneema loops as attachment points for suspension lines and for the horizontal fixing lines.

Finally, a layer of wood preservation oil will be added to prevent water soaking into the boards.  That would only make them heavier.












Recessed holes on the outside to prevent line chafe.




Also a recess at each end for the protection of the planned dyneema loop


Planned dyneema loop fitted.



fredag 15. februar 2019

Trampoline net mounting technique



Ref below, we mounted the starboard net today. I have been wondering for a while how to get the nets correctly positioned and tightened. We do not want to use many short lenghts of line, even if this makes the job easier. It will result in many ugly rope ends and knots. On the other hand long lenghts are cumbersome and make it more difficult to tighten the nets up. The working position is also uncomfortable at the edges of the hull with no guardwires and 3 degrees centigrade water below.

So we pre-mounted with plastic strips. This way we were able get the right positioning  and stretch before tying the lines. In relative comfort and safety.



onsdag 16. januar 2019

Trampoline net repair


The boat has been operative and in quite a lot of use for many years now. She is a year 2000 model. Some equipment is showing signs of wear. The trampoline nets were in a condition after last summer that required something to be done. Preferably new nets. But the original ones are of a high quality type, and expensive. A Privilege uses two nets. Also, they would have to be ordered from abroad, meaning that additional shipping and import fees would apply.

So a repair had to be considered. Several of the grommets were corroded to disintegration, all were showing some sign of corrosion. Around many of the grommets the fabric was stretched and torn so much that I feared new eyelets would not grip properly.











Some kind of reinforcement was necessary. And some high quality grommets. The original grommets were brass with some kind of coating, probably chrome. I wanted large stainless steel ones.

And again, as Norway is a small country with a limited marked for everything that is not quite common merchandise, I had to look abroad. As often before, the US had the solutions. For Norwegians, at a price. The largest grommets I found available in stainless steel were slightly more than an inch in diameter, US #5, from Fasnet. They were willing to ship to Norway, which is not always the case.
I wanted to use strips of heavy duty fabric along the rows of grommets to reinforce that area. The most promising I found was heavy duty vinyl coated polyester from Tarpsnow. Had to go through a reship service to get it home.

With the parts and materials available, a repair could be attempted. Luckily I discovered that the nets could be used with the reverse side up, if changing sides. They look fresher on the less exposed underside. 

I cut the strips, and a sailmaker sewed them on. The grommets came on nicely, and the end result looked good and promising. I hope the nets will now last for many more years.