I have a 3D steel panel modeled with shell elements. And this panel is fixed at its two ends with bolts to solid blocks, which are the supports for the panel, and they are fixed to the ground.
Having both ends fixed, I obtain high horizontal reactions at the solid supports under gravity loading. And since the panel is fixed to the solid supports, naturally deflections and stresses at the panel is significantly affected by these boundary conditions (when I release one end of the panel in horizontal axis, deformations at the panel change significantly, which also effects maximum stresses at the connection)
Cable deflection theory says, it is normal to have high horizontal reactions, because cable elements don't have bending resistance, and all the load is carried as tensile forces, which create the horizontal reactions. However, what about these horizontal reactions for a bending resistant panel element?
Although I was trying to develop a model which reflects the reality, having fixed boundary conditions for both supports(it is a model of a test specimen, which is perfectly fixed at two ends), now I am not sure if my model is correct. Should I actually release one end in horizontal axis to obtain zero horizontal reactions?
Thanks for your help!
Having both ends fixed, I obtain high horizontal reactions at the solid supports under gravity loading. And since the panel is fixed to the solid supports, naturally deflections and stresses at the panel is significantly affected by these boundary conditions (when I release one end of the panel in horizontal axis, deformations at the panel change significantly, which also effects maximum stresses at the connection)
Cable deflection theory says, it is normal to have high horizontal reactions, because cable elements don't have bending resistance, and all the load is carried as tensile forces, which create the horizontal reactions. However, what about these horizontal reactions for a bending resistant panel element?
Although I was trying to develop a model which reflects the reality, having fixed boundary conditions for both supports(it is a model of a test specimen, which is perfectly fixed at two ends), now I am not sure if my model is correct. Should I actually release one end in horizontal axis to obtain zero horizontal reactions?
Thanks for your help!