34' fin keeler, Edge resorinol glued strip (40x20mm). 1969

I am currently renovating the above owing to over generous backstay tension, leading to glue lines letting go just forward
of the mast step.
I think probably all the glue lines are somewhat tired from 35yrs of immersion anyway. And, it was our first race in 30knts plus with a lot
of windward work. Less aggresion on the backstay and a new flatter main would be kinder.

Below is a photo link to the boat.

http://www.imagestation.com/album/index.html?id=2130491226

login- roly05 password- roly24

I would really appreciate any input/thoughts on methodology laid out below.

Our fix is to undertake the following:

Dry hull to < than 20% MC.

Skillsaw out bad glue lines and edge nails having secured stripplanks to ribs.

Replace any planks that are suspect or probably replank to the waterline as
BWL planks are not drying to suitable levels.

Reglue old reamed out open glue lines (topsides) with epoxy/microfibres.

Glass hull (inverted) with one 20oz triaxial at 90deg to planks. (Warp) with epoxy, to gunwales.

Glass deck with two layers 6oz woven e-glass, over gunwales. (overlap)

Replace the mast step to to redistribute the mast load more evenly over a greater area.

Fair, paint etc.

I understand sheathing integrity must be maintained 100% for this to be feasible and the consequences are rot if not maintained.

The other option is to reglue lines and just paint.
Decisions!

It is only after the journey thus far I am beginning to appreciate the evolution
of the wooden boat.
At the very least, they are made of a material improved over millions of year s to withstand zillions of stress cycles.

Its how they are put together that counts.

Any input appreciated!

Roly,

Nice boat, please read this thread on glassing a wooden boat and make decide from there.

http://www.boatdesign.net/forums/showthread.php?t=4614

Gidday Peter,
Did you post an url?
It must not have come up.
It is odd, because I suspect a lot of wooden boats have multiple coats of paint which
are comparable with a thin layer of epoxy/glass. No?
It seems sheathing with glass has a much better chance of success if done from new which infers that the combination works but the variables must be controlled precisely.


“The opinion of the majority is not necessarily correct” – Yi Qing Cui

Quite, or we would have no progress,but following majority opinion generally improves the non-thinkers chances of being correct.

Roly, forgot to post the URL, is now corrected.

It is odd, because I suspect a lot of wooden boats have multiple coats of paint which
are comparable with a thin layer of epoxy/glass. No? .
No, paint still breaths and moves, epoxy/glass does not!

It seems sheathing with glass has a much better chance of success if done from new which infers that the combination works but the variables must be controlled precisely.
One very important variable is the construction design of the boat.

I assume an edge glued and nailed strip planker is not a traditional method of build ,rather, a transition between traditional carvel and strip wood sandwich or wood/glass composite. I see it, correct me if I am wrong, as a monocoq. structure with minimal frames, where movement of the planks relative to each other should be negligible.
So, is this not a design that lends itself to sheathing?
Thanks for your input!

Yes, this is a design that lends it well to sheathing, for exactly the reasons you stated in your last post, a stable structure. Cost is a consideration as is the additional labor in application, fairing and fairing and fairing. Then there's the maintenance issue regarding the intactness of the skin. This is a typical planking method (edge nails and resorcinol as the adhesive, though epoxy is more common currently) and insures a long lived, watertight structure. I love resorcinol myself (except the color) and it works great.

The wood cored (sandwich) construction methods are newer applications for strip planking and rely on different engineering principles then the method employed on your hull. Traditional strip (your boat) can tolerate a sheathing, but should be used for abrasion resistance qualities only (in which case other fabrics should be strongly considered) the structure clearly has survived a number of decades without a sheathing, so strength isn't the need. If you're looking for better impact resistance, the heavy sheathing should be inside the hull, which brings me to wonder why the 20 ounce skinning.

Why do you feel the need to add the weight, labor and materials of a 'glass sheath? You'll be making any structural repairs, replacing 35 year old bottom planking and giving her a good once over, are there other issues you're looking to address with this treatment? You will need a substantial inner and out layering of fabrics to turn this into a sandwich, with a healthy weight burden for your efforts.

Epoxy in the seams will work, though the "Skillsaw" (reciprocating saw?) will remove quite a bit of material from the seams and play the devil with frames and the back side of planking. It's a bitch anyway you do it, but I prefer methods that permit me to screw up without hacking half way through a frame or something. These techniques may require taking a hacksaw blade to each fastener by hand, to limit damage to a single stroke, rather then the wind down cycle of a power tool, after the trigger is released. It's in this regard that restoration or repair can be very frustrating and insist on clever solutions to difficult issues, such as limiting damage during fastener removal. I recently re-fastened a lap hull, 42 frames on 7" centers with 3 clenches between each frame, 14 planks per side. Each clench had it's head drilled out and the clench was driven through, the screws into the frames had their heads drilled and a bolt extractor was needed to remove the screw without damage. About 20% of the screws did come out with a screw driver, the rest were drilled, all the clenches were drilled. About 4,000 clenches and 2,500 screws later . . . I only buggered three holes (I got lucky) It's a lot easier to build then to repair certain construction types. Strip plank is one of those types that make us drink.

Personally, I'd continue to dry the hull. The bottom will eventually dry out, you can work on the topsides and other areas in the mean time. I'd be afraid to use a reciprocating saw on the seams, though a hacking can be filled with wood butcher's friend (epoxy). This is one of those judgment calls that I'd want to see up close and personal. I'd likely remove several planks at a time and install replacements as I went. This assumes the framing is repaired on in good shape. I'd give her a light sheathing on the deck and hull using polyester, rather then 'glass (it conforms better to compound shapes and has three times the abrasion resistance). After your done, remember she's now longer a front of the fleet boat, so go easy on the backstay.

Deck stepped sticks are hard on hulls, especially if the compression post isn't a real good fit and the athwartship members (partners and deck beams) hefty enough to take the loads out to the hull. You'd be well served by going over this area very closely and insuring the loads get transmitted to the planking.

PAR- Many thanks for your input. Too many variables have me reeling!

To your queries:
Why do you feel the need to add the weight, labor and materials of a 'glass sheath
To stiffen the hull tranversely (when the timber X grain and glue lines are in tension from the rig loads) and, I suspect diminished holding power of the slight internal ribs/frames. Glass would be in tension as the mast loads the hull. The one dimension rigidity of strip planking concerns me.Also the+- 45 strands should supply some torsional rigidity.
Less water absorbtion of the hull.
Added confidence for a bluewater adventure to Tonga. If it was 3 Skin veneer
I would be much more comfortable.
are there other issues you're looking to address with this treatment?
SWIMBO said, "Fix it and fix it good, or I won't set foot in it."
I would still be sailing otherwise.

.other fabrics should be strongly considered
I considered Xynol (Sp) but does it come in a triax or Uni ?
Can't see the point in glassing with the dirrection of planking.

a substantial inner and out layering of fabrics to turn this into a sandwich Can you sheath externally and use the frames for internal stiffening with
liberal sathering of frames, ribs, crevices with unthinned epoxy. I don't think it would be practical to glass the interior.

It's a bitch anyway you do it,
I can imagine. I plan to only skilsaw 3/4 way thru. Better that than cutting frames. Also , less mess inside.

Personally, I'd continue to dry the hull.
It has been drying for six months. BWL is now back to 30% (was down to 22% in summer and is sweating as the dew point is dropping and humidity rising, I am paying rent and want to go sailing! Topsides are still below 15%.
I am loath to force dry and epoxy is not recommended for salt impregnated timber so the only solution seems to be to replace it. Keelson could be a problem! Where do you stop?

Deck stepped sticks are hard on hulls
Mast is keel steped. ( too short spread of load-hence point loading and leak)

Could a lighter material be substituted BWL, say wrc. This would save me 100lbs? Kinda weird having denser topsides tho'.
Hope this aint too tedious-- Thanks again for your time.
Thanks also to Peter ~

On one of the other threads, someone suggested vaccume bagging to dry out a hull. Might have been for a foam core.

It seems this boat has all the torsional strength needed already. 30 years of proof. The wood should be stronger with the sheathing as it should remain at a lower moisture level. So maybe uniglass would be appropriate. And the inside of the hull? Planning to glass it also? I talked with Mr. MacNaughton several months ago. If I remember correctly, he claimed the only way to glass sheath strip planking was equal weights of sheathing insided and out. (accept for a bit more for abrasion resistance on the bottom)

Epoxy is sensitive to moisture content of the wood. Becareful

You could kiln dry the hull. as is. Would require several cases of ruhm, lemons, triple sec, 3 or 4 weber grills, meat delivery during the next month. Would make you feel like you are on the sea ... or at least the time will go bye pleasantly. smile

Maybe set a dehumidifier in the hull. serious this time

regards

This looks to be an early IOR yacht, which means it's construction was relatively light, rig powerful, raced pretty hard in the first several years of it's life, maybe longer and now 30 plus years later it is showing signs. It survived because it was a strip planked hull, most of it's breed are in land fills.

You'll need a lot of glass to help share the rig loads and provide torsional reinforcement, which means more weight (read even more stress and loading) Unless you are trying to fix worn out planking, frames, floors, bulkheads with a workboat style of sheathing (1/4" or thicker) your skinning schedule will provide little more then abrasion resistance and some moisture penetration.

If you want to "fix" this boat, increase the skimpy frame thickness, maybe laminating on top of them or sisters or decreasing the spacing with additional frames. The planking is probably shot, I know you didn't want to hear that, but there it is. If the bottom can't be dried out, it'll not take your sheathing, nor any new fasteners or other repairs well either. You may have to "cook" her in order to get it dry.

The only way sandwich construction works is when the outer 'glass skin (well bonded to the wood core and to the inner skin) has to stretch to conform to a bending load. Similarly the inner skin has to compress to the same load. Since 'glass doesn't like either very well (stiff stuff) the resulting panel is quite ridged. Any variation from this uses different engineering concepts, which would have to be worked out. Coating with un-reinforced epoxy (no fillers or fabric) will impart very little strength to the structure. Unless you are using epoxy as a coating (thinned or unthined) it must have a reinforcement (filler and/or fabric) to provide strength.

Strip planking is a very strong way to build, especially if you need a relatively clean interior, free off large frames and other structural members. It's probable the whole of the structure has issues. Fasteners loose, glue lines and joints releasing their grip, soaked lumber, the movement of the structural members making things worse as time goes on. The real fix is to replace the worn out planking, repair, refasten and restore joints in the structural members and generally go over the structure to insure things are tight again. You can redesign the mast step if you like, though it looks to be bridging 5 floors. You could add some additional structure, be that a heavy sheathing, addition frames, floors, bulkheads, deck beams or whatever, knowing you'll pick up a weight penalty through this effort.

Personally, I don't think you'll need the additional structure added. I think new planking (CPES it if you like) with new fasteners and epoxy joints will firm her up a lot. If this is coupled with replacement of all the structural member fasteners, you'll get a lot of life out of this old gal. I think everything is "working" from a hard life and age. Once the boat is refastened she'll be solid again. I'd recommend a high quality paint for her too.

Is there a reason you feel she needs additional torsional support? If so, I'd think about some exotic fabric banding, rather then a heavy sheathing.

All makes sense-Thankyou. Having not given the boat an adequate sea trial
I am proceeding gingerly to minimise additional folly. (My surveyor, in retrospect, was "tits on a bull".) The responsiblity though is all mine. (red face!) :o

I don't have a problem with replanking, except getting the keelson to low enough moisture content to accept the new garboard.Also,the moisture content of the frames and floors is a concern.I have some 200x200mm heart Kauri stock, so I may put temp. fasteners in while replanking and replace the
floors when the replanking is complete.
As pointed out, removing and replacing planking, section at a time, would be the safest method.
I think, next week we will invert the boat, closed bag it and start force drying
it with fan heaters and dehumidifiers monitoring as we go and hope it doesn't explode! (distortion is definitely in the back of my mind)
I could live with the moisture if I wasn't regluing. Replacing the keelson, I want to avoid!
The glass sheath is secondary right now.

If it is of any value to anyone of similar inexperience,or predicament, I can post pictorial update of progress, decisions made and reasons (right or wrong!)

I have an option of WRC below the waterline as opposed to kauri to save weight.
Kauri density is approx 560kg/m3 , wrc 380kg/m3. Is this a feasible? I will most probably sheath the hull.
Considering that the kauri would be on the topsides (in a semi-vertical plane) and the cedar around the bilge to the keelson. Good kauri stock is difficult to obtain and expensive. $2600 to $4000 a cube. On the negative you want to save wt above the c of m. not below.

My expectations of strength enhancement are high and weight gain low; perhaps unrealistic but there you are. You achieve in proportion to what you attempt.

Your planking material provides a very large majority of the longitudinal strength in this type of hull. Changing to a less dense species (conciderably less) means you'll need thicker stock to provide similar structural benefit. Saving weight is a wonderful thing, but best done in the design process not after a shape is employed and a target displacement met. Use light weight hardware aloft, remove the engine and sail it the old fashion way, but try to avoid changing the yachts scantlings without a complete understanding of the principles, concepts and engineering involved. You seem to have a good knowledge base, but may lack some of the engineering abilities to pull off what you're attempting.

You could use lighter weight planking, coupled with exotic fabrics set in epoxy to compensate for the strength differences, possibly coming in with a lighter boat. If you do manage to lighten the boat a substantial amount you'll likely need to add ballast (cool, it can be down low, right) but this may require re-rigging the sail plan for the increased loading.

These compounded difficulties are quite typical of how fundamental design changes can impact several areas of the yacht. I'd strongly consider a different course then substantially weaker bottom planks, a sheath (there goes any weight savings) where one isn't needed and other wise major deviations from the original scantlings, without running the numbers on the structure and the resulting dynamic qualities on the yacht.

Thankyou PAR for your rationale on retro changing design variables. I suspect that many old boats undergo quick fixes and this is inadvertently done anyway, as is the case with the coach roof on Pukka.
When you consider one crew member possibly adds 80kg of above c.of m. surely the sheathing is of less significance and these numbers do not have
a marked effect on righting moment, rig tension/mast compression and % increase in displacement.

Regarding the western red cedar;I prefer kauri anyway. I just don't like the price!
Correct me if I am wrong but I calculated the wt burden of a sheath as follows:
1 x 20oz sheath of epoxy over 40m2 of hull area =
40 x 20 (epoxy) =800 /35 = 23 kg @ 40/60 saturation = 58kg
Filler coats + fairing allow 20kg
Gross weight gain = 78kg
Minus moisture removal from extg hull approx 0.5m3 from 30% to 15% = 0.15 x 560 x 0.5 = 42kg

.*. Nett displ. gain = 36kg....... not that bad.

Also to consider is the external buoyancy of the sheath at 40m2 x .001m=0.04m3 = 40kg. ( assuming 1layer 20oz triax. = 1mm lam. thickness)
The coach roof has been added to over the years and now consists of 4 x 9mm H/wood ply! 36mm! All that weigh up high, now if I could just lower that mass somehow?
Of course there there is a displ. gain for deck sheath to be added.

Diag. scribe thru first pic = WL. Note dark bwl planks after 6mths drying!

My 2 cents.
Replace planking below wl with kauri,gluing with epoxy.
Cut open all suspect glue lines 1/2 way through in topsides that look suspect.Fill these with epoxy /silica.
Fair and paint..I wouldn't glass the outside.The boat has done just fine the way it was and there is no reason it won't give good service this way again.
Inside..replace any frames/floors etc that need it.Add a few new ones(extras) to take rig stresses.

My boat(smaller) is triple diagonal kauri,great timber.
Yours looks to be a Stewart 34?

Cheers
tactic

Gidday Tactic,
Yep, S34 1969.
I hear you,along with others on the glassing is unnecessary.
Because of the age of the boat, and the fact it is longitudinal strip and not triple diag. surely it cannot do any harm if it is done correctly? Expensive confidence builder!
Some would say misplaced.
Replacing additional and compromised frames is on the agenda.

BTW, Is your boat glassed?

I have experience in laminating,surfboards and fizz boats, not real boats, so the process is not unfamilar. Just a matter of scale.

Hey, thanks for your input. Boat is at span farm. If you feel inclined & are local ,drop
by. mob 021718373 attached pic of bracing for roll over.

Hi Roly,
Would love to see your boat,But I am at the other end of the country.
My boat isn't glassed,and doing so help with anything in my assesment so far(built1976 and dry sailed)Plenty of boats built the way yours is have been glassed though.
I honestly don't belive you have much to gain from sheathing the hull,I don't think sheathing will bring you problems either,your structure is stable and designed not to move around.
Sheathing will cost you time and money though.
I don't like that Resorcinal glue..seen a few failures in my time.My guess is that is your biggest problem. Sort out your planking and edge joints then re evaluate the situation.
Kahikitia(spelling)aka white pine would be an alternative for the replacment planking,started to get hard to find though also.

Have fun
Tactic

All systems worked perfectly---Phew!
Dunno whats wrong with the image system?
http://www.imagestation.com/album/?id=2130491226

image 16 thru 22

login roly05 pass roly24

Removing all vestiges of coatings turned out to be a history lesson on the boat and its adventures or (mis) in this case. Exciting though, and a firm base to make decisions and have confidence in the renovation.
Low and behold,steel screws were used to fix strip planking to the sawn keel frames.About a third showed major degradation. Edge nails were 65mm x 2.8mm galv jolt heads of which the majority were in good shape. Obvious attempts to fix the current problem had been made using splines,trunnels to laminated frames (I guess to stop relative movement), and new sistered ribs
in the weak spots. Hope my methodology fairs better.

Planks that I considered too wet or contaminated (old diesel leak) to dry have been removed revealing the same problem with a section of the keelson
and some of the floor frames.Just where do you stop!!!
I am seriously entertaining replanking using the old frames as formwork,sheathing the exterior,turning over, removing old frames,sheathing the interior with appropriate weight of bi-axial (or tri) and then glassing in an appropriate floor grid to replace the frames.
There is no way I want a repeat of previous repairers endeavours. Splines &
sister ribs that didn't solve the problem. Too much work done to cut corners at this stage.

Don't worry about repeating your current repair work. Do it like it was and 30 years later someone else can continue the life of the boat.

You are probably right. But I have woken up in the middle of the night with the cold sweats that my major repair didn't work!

I rather go overkill.

http://www.imagestation.com/album/index.html?id=2120245606

Prognosis by a very experienced and reputable boat builder/surveyor.

Scrap it and build a new hull! Repair not cost effective!

Bugger...

Well, I just couldn't bring myself to cut it up and burn it, and a complete change to composite would give me the guilts, so replanking and partial reframe it is. I have 700lm of old growth (8-14 rings to the inch) heart kauri planking ready for a new year start.
:p
Wish me luck~

Started!
Temporary fixings to frames as we may remove the frames to glass interior.
We are removing any planks above 20%.( or contaminated)
Amazing little rot for 35yrs in the water.

Good show!

Good luck to you.

Can anyone help me with the details of frame/bulkhead layout of a similar size
boat that is strip planked and glassed inside and out with approx 30oz epoxy/triax, and heavier in keel areas? In particular keel transverse sawn frames. Post seven photo shows existing frames which I hope most can become redundant. Kinda , how long is a piece of string question!
Be nice to have a similar boats interior glass layup to refer to.
David Gerr's tables suggested 1500gm for the scantling # on 20mm plank thickness.Way conservative I feel.So I have reduced this to 810 gm(30oz) with reinforcement in the keel zone,engine bed, rudder tube etc.My core is kauri density 560kg/m3,MR 88Mpa,,ME 9.1Gpa. Perhaps 1610gm station 2 to 6 & leave
it lighter in the ends. His tables were for a single exterior skin. When glassed inside as well,no reduction is made.I guess it is assumed there will be less internal structure. He refers to the same bulkhead frame setup as a a FRP composite (foam) boat.
This I find odd, as the emphasis is on longitudinal stringers and the strip planker is already longitudinally stiff?? I may have to seek out the services of a naval architect.

To minimize any distortion of the hull shape we have been removing 5 planks at a time and dry fitting before glueing. Seemed the optimum way except for double the work! Nearly there!!!

Shutter plank in! Now to reglue any suspect old topside glue lines and prep to glass.