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Underwater surface finish
"Glenn Ashmore" writes:
It has something to do with the texture and flexibility. It is apparently a thick coating that has a microscopic surface pattern that slime spores and barnacles have a hard time binding to. It also flexes slightly under varying water pressure so the barnacle cement pops off. A side benefit is that those little bumps improve laminar flow reducing wetted surface drag. Sort of like the dimples on a golf ball. It is the other way around actually. The dimples of golf balls are there to trip the boundary layer to make sure you get rid of the laminar boundary layer. -- Martin Schöön "Problems worthy of attack show their worth by hitting back." Piet Hein |
Underwater surface finish
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Underwater surface finish
3M product was "riblets", used in Perth. Works and was banned. The
application of a Swedish concoction sloughed-off and left the riblets clean. Had to be washed off and re-applied every night. Sometimes America Cup technology does not trickle down. Them's the rules from '86. Dry sailing is required. |
Underwater surface finish
On Aug 16, 6:21*pm, (Martin Schöön) wrote:
"Glenn Ashmore" writes: It is the other way around actually. The dimples of golf balls are there to trip the boundary layer to make sure you get rid of the laminar boundary layer. -- If you google riblets you will find the 3M product as an adhesive application. These were banned by the AC and the accompanying "go-fast" solution. This was in the days of "national origin" of equipment |
Underwater surface finish
Just reading up on golf ball dimples They evidently create a thin layer of
turbulence that keeps the laminar flow from breaking away longer reducing the turbulent area behind the ball. Discounting the Magnus effect because a hull does not (normally) spin, the result is less drag. That said, it seems to follow that dimples on the mast would hold the air flow around it further aft reducing the turbulence on the luff of the main. Probably not much but then the big racers cut their toothbrushes in half... :-) -- Glenn Ashmore I'm building a 45' cutter in strip/composite. Watch my progress (or lack there of) at: http://www.rutuonline.com Shameless Commercial Division: http://www.spade-anchor-us.com wrote in message ... On Aug 16, 6:21 pm, (Martin Schöön) wrote: "Glenn Ashmore" writes: It is the other way around actually. The dimples of golf balls are there to trip the boundary layer to make sure you get rid of the laminar boundary layer. -- If you google riblets you will find the 3M product as an adhesive application. These were banned by the AC and the accompanying "go-fast" solution. This was in the days of "national origin" of equipment |
Underwater surface finish
On Sun, 17 Aug 2008 14:50:12 -0400, "Glenn Ashmore"
wrote: Just reading up on golf ball dimples They evidently create a thin layer of turbulence that keeps the laminar flow from breaking away longer reducing the turbulent area behind the ball. Discounting the Magnus effect because a hull does not (normally) spin, the result is less drag. That said, it seems to follow that dimples on the mast would hold the air flow around it further aft reducing the turbulence on the luff of the main. Probably not much but then the big racers cut their toothbrushes in half... :-) The guy in the next slip to me is a serious racer, and pretty successful at it. He talks about "seconds per mile" and I assume that if a "golf ball" finnish would actually increase speed he would be spending every Sunday punching dings in his hull. Since he isn;t I suspect that dimples probably don;t effect the speed of a boat hull. However, boats, particularly submarines, operate in very similar conditions as a competitive swimmer and if the new suits give them a 5% decrease in drag then why not boats? Or perhaps, why them and not boats? Bruce-in-Bangkok (correct Address is bpaige125atgmaildotcom) |
Underwater surface finish
Bruce in Bangkok wrote in
: On Sun, 17 Aug 2008 14:50:12 -0400, "Glenn Ashmore" wrote: Just reading up on golf ball dimples They evidently create a thin layer of turbulence that keeps the laminar flow from breaking away longer reducing the turbulent area behind the ball. Discounting the Magnus effect because a hull does not (normally) spin, the result is less drag. That said, it seems to follow that dimples on the mast would hold the air flow around it further aft reducing the turbulence on the luff of the main. Probably not much but then the big racers cut their toothbrushes in half... :-) The guy in the next slip to me is a serious racer, and pretty successful at it. He talks about "seconds per mile" and I assume that if a "golf ball" finnish would actually increase speed he would be spending every Sunday punching dings in his hull. Since he isn;t I suspect that dimples probably don;t effect the speed of a boat hull. However, boats, particularly submarines, operate in very similar conditions as a competitive swimmer and if the new suits give them a 5% decrease in drag then why not boats? Or perhaps, why them and not boats? Bruce-in-Bangkok (correct Address is bpaige125atgmaildotcom) Do you think the suits came before the subs - or the subs came before the suits? |
Underwater surface finish
"Glenn Ashmore" writes:
Just reading up on golf ball dimples They evidently create a thin layer of turbulence that keeps the laminar flow from breaking away longer reducing the turbulent area behind the ball. Discounting the Magnus effect because a hull does not (normally) spin, the result is less drag. That said, it seems to follow that dimples on the mast would hold the air flow around it further aft reducing the turbulence on the luff of the main. Probably not much but then the big racers cut their toothbrushes in half... :-) Alu spars for monohulls used (I haven't checked this in a while) to have a few riblets about one fourth down-stream on each side to trip the boundary layer to stop von Karman vortices from forming. This reduces the separation bubble on the suction side of the sail and reduces the risk of spar oscillation in harbour. Another approach is of course to make sure the spar contribute to drive rather than to drag: a rotating wing-shaped spar. -- Martin Schöön "Problems worthy of attack prove their worth by hitting back" Piet Hein |
Underwater surface finish
I’ve been using this technique on my boats bottom for years. The
doubting Thomases in the boat yard assumed that it was because I was just too bone idle to prepare the surface properly and that my painting technique was lousy. But I knew better. Still haven’t got it quite right though, a few more lumps this year and she should go like greased lightning. Mike. I wonder whether this phenomena applies to boats? Should we be attaching shark skin to our boats? I have seen the dinghy sailors polishing the underwater surfaces of their dinghys with 2,000 grit sandpaper and wonder whether this might actually be the wrong thing to do. Is there any empirical information regarding the application of this technology to boats? Bruce-in-Bangkok (correct Address is bpaige125atgmaildotcom) |
Underwater surface finish
On Sat, 16 Aug 2008 12:38:29 +0700, in message
Bruce in Bangkok wrote: I wonder whether this phenomena applies to boats? Should we be attaching shark skin to our boats? I have seen the dinghy sailors polishing the underwater surfaces of their dinghys with 2,000 grit sandpaper and wonder whether this might actually be the wrong thing to do. Is there any empirical information regarding the application of this technology to boats? The orientation of the surface is very important in determining whether drag is reduced or increased, thus the effect is much easier to manage on submerged bodies like sharks or aircraft, rather than surface craft like sailboats that are subject to varying flow directions due to wave action, heel angle, etc. The effect is real. The major problem in application so far has been that the surfaces are fragile and easily damaged by things like slings, collision with minor debris, etc. It's not worth it outside racing, and the RRS prohibit it. Ryk |
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