A couple of more thoughts on cockpit sides....
I just came in from rolling on a finish coat of epoxy on a hydro and have a couple more thoughts on the sides of our boats.
1. Whatever fiber you choose for whatever reason, laminiate it on the outer faces of the part to be stiffened. I've seen some guys put the fibers in a sandwich between two layers of plywood. This does very little but help puncture strength. The center of a symmetric laminate sees ZERO bending stress. I don't care what you put there, it is really just adding weight. You could argue that no plywood is exactly symmetric and that is true, but put the fibers where it will do the most good. Remember also that the stiffness goes up with the cube of the thickness. That means that a panel that is twice as thick is actually 8 times stiffer. Again this is a theoretically figure for a homogeneous material, but the point remains true: adding a little thickness goes a long way, especially with the trend towards "billboard" sides.
2. Add some curvature to the sides when looked at in plan view. To test this theory, pick up a piece of paper. It will bend down limp unless you curve it slightly. Try to remove the geometry of the cockpit side to deck junction from being a hinge to this same bent panel that will resist bending loads by itself without needing the cantilever support of the deck and resulting stress concentrations.
This stuff may sound complicated, but is really just simple principle that works.
Steve Roskowski
I just came in from rolling on a finish coat of epoxy on a hydro and have a couple more thoughts on the sides of our boats.
1. Whatever fiber you choose for whatever reason, laminiate it on the outer faces of the part to be stiffened. I've seen some guys put the fibers in a sandwich between two layers of plywood. This does very little but help puncture strength. The center of a symmetric laminate sees ZERO bending stress. I don't care what you put there, it is really just adding weight. You could argue that no plywood is exactly symmetric and that is true, but put the fibers where it will do the most good. Remember also that the stiffness goes up with the cube of the thickness. That means that a panel that is twice as thick is actually 8 times stiffer. Again this is a theoretically figure for a homogeneous material, but the point remains true: adding a little thickness goes a long way, especially with the trend towards "billboard" sides.
2. Add some curvature to the sides when looked at in plan view. To test this theory, pick up a piece of paper. It will bend down limp unless you curve it slightly. Try to remove the geometry of the cockpit side to deck junction from being a hinge to this same bent panel that will resist bending loads by itself without needing the cantilever support of the deck and resulting stress concentrations.
This stuff may sound complicated, but is really just simple principle that works.
Steve Roskowski
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