Two things of note:
1. The cracks is along the entire width of the beam, so it's definataly propagated from wherever it started from (picture 33/38)
2. It's outside the weld (again, picture 33/38)
So to me it's in the metal, not in the weld. Which is more concerning to me as if it was the weld then easy fix. Just re-weld it. But that doesn't appear to be the problem.
Now onto the root cause. The hardtop will flex as the boat moves thru the waves. It's called deflection and I'm sure Grady has modeled the deflection using Finite Element Analysis (FEM). Then they can calculate exactly how thick the tubes need to be, tube arrangement, how thick of a weld, etc is needed to allow the machine to work under normal loads.
Back from the two aircraft structures classes I took in undergrad aerospace engineering, an aircraft wing deflects upward in flight due to the force of lift acting upward on the wing. Aircraft wings are designed to have enough strength to enable the lift force from tearing the wing apart. A hardtop is going to deflect side to side as horizontal forces act on the boat (e.g. beam sea) and upward and downward as vertical forces act on the boat (e.g. head sea).
The hardtop is allowed to deflect some, but the main concern to me is how DEEP are those cracks going into the metal? If the cracks too deep then a catastropic failure can occur.
David
