With teak, warm temperatures have the typical effect of expanding pores like in any wood and that simply allows the resins to move easier and in greater quantity. Air in combination with heat from the sun and its UV rays all contribute to the drying out process. I believe the eventual loss of adhesion of a topcoat finish is only marginally due to this resin flow to the surface, the speed of which is affected by temperature. Any place in the wood the resins have been depleted allows for the onset of rot as long as oxygen, dampness and warmth exists, the rot spores will proliferate and the onset of the fungus will begin. End grain being especially susceptible.
Loss of topcoat adhesion can be greatly minimized by use of a penetrating finish rather than one that simply lies on top. It seems great success has been made with newer penetrating finishes ( low viscosity urethanes and epoxies) to dramatically reduce the flows of the teak resins to the surface no matter what the thermal situation. Although rapid changes from cold to warm temperatures will often result in air expelling from the substrate that can compromise a finish adhesion. Is that pressure? I don't know. I would call it breathing. If you come across more information on "pressure" please post it as it would be of benefit in gaining a thorough understanding of what takes place in a wood substrate.
Do I understand you correctly......do you have solid teak bulkheads in your 30? Our 30 I believe is all veneered ply bulkheads like most boats, just double layer 3/4" ply with a teak veneer both sides. I'd hate to hear the price of a 1-1/2" solid teak bulkhead plus I don't think the strength would be anywhere near that of plywood.
Larry DeMers wrote: Well, I can try to explain this effect. I do not have any textual sources for you other than references to this effect in a multitude of finishing articles and books over the years.
Here is what I believe is close to what happens:
Natural teak is absolutely filled with oils, which protect the surface of the wood fiber from water intrusion, as well as insects. Allowing that surface to be exposed to UV rays, causes a drying out of that surface fiber, which then wicks the oils from underneath it towards the surface. Aiding this is an internal pressure, generated by changes in temperature.Higher temps would cause an increase in this pressure <must be a very small pressure>, which will force more oils into the depleted area, where they are oxidized by UV rays. Once UV rays have dried the teak out sufficiently, water intrusion starts to occur, which will allow the chemical changes that are a process of rotting. The wood will warp, and crack as it wants to, following the grain.
NOw during this process, the wood turns nicely grey, and makes a great non-skid surface for us to walk on. Left alone, the rotting process will allow mildew to grow with black spots spreading horizontally and vertically into the woods fiber..and we look at it and say it needs to be cleaned and 'brightened', a process that uses bleach to kill the mildew and rot. Then the wood returns to it's familiar tan coloration for a period.
Cetoling at this point will cover that surface with a porous seal. The seal is good because water never reaches the wood fiber, and the UV spectrum is prevented from reaching the wood fiber, so no oils are lost to oxidation and the wood remains stable.
That is about as good an explantion as I acan come up with this morning. I will research this a bit more and report back with what I can find out. Seems it is a continual problem with any teak on boats.
I priced out the bulkhead on my CD30..as if I was going to replace it. Guess what? You cannot. I could not find a single source of teak that would provide a piece such as we have on our boats now. You would have to settle for another species, or a laminated application over marine ply. There will come a time, perhaps we are there now even, when teak will just not be included on boats at any price within reason. It would seem that this is a valuable wood, and worth caring for properly.
Does this help?
Cheers!
Larry DeMers
s/v DeLaMer
Cape Dory 30
John R. wrote:Someone in this thread mentioned that teak does not rot and unfortunately that is not true. Under the right circumstances teak will rot just like any other wood just not as easily. It is certainly highly resistant under the right conditions but not rot proof. It can and will easily rot around seams of bungs covering screws, and at other types of seams and joints if left to weather the elements. Especially in warm damp areas such as in the south,ie: Florida.Larry DeMers wrote: What I have done on other boats that wanted a varnish finish was to clean as others have described well, then use a teak brightener,really just a bleach preparation (which is all I would use now if doing it).
This will uniformly lighten the wood, towards the light tan color usually..or slightly darker if you limit the chlorine exposure. Rince exceedingly well, using fresh water, a soft brush raked with the grain, then do it again. Allow to dry completely..overnight or longer. Then go to it with the finish of your choice.
I have to say that I have seen some of the most breathtaking varnished finishes on teak bowsprits for instance. The grain just jumps out at you and you feel like treating the piece like a coffee table or something! The boat was heading for the Caribbean, then up and around to Scotland..from Superior. The guy had 12 coats of varnish built up over the winter (he took the bow sprit off and brought the whole darn thing home!)..now that is a varnish nut!
But this is nutz from any practical standpoint you care to use. A bowsprit gets used hard, and I argue that that kind of finish belongs below decks or on protected wood, that sees light service.
Onwards!
Cheers!
Larry DeMers
s/v DeLaMer
Larry, could you please offer more details about the "pressure" in teak and how that lifts a finish? The resins in the wood certainly migrate to the surface as does moisture in any wood and that resin migration certainly compromises adhesion of a finish in time. I've simply never heard of a "pressure" per se unless you are speaking of trapped air during the application of a finish. If you can point to a source of additional information on that point I'd like to read more about it. Thanks