0100AM
Mechanical
- Aug 4, 2011
- 3
I ask you a hint for the simulation of this structure extracted from a larger structure with a rod
Given the complex configuration of the structure, I wonder where I can tie the particular
I drew in Wbench based on its dimensions and where you should put a load otter stress state as the example.
Thanks
P.s. I am attaching more pictures if you want to maybe draw some sketches of them and load restraint
Somebody answer me this:
<<
In your place, noting the symmetry of the piece, the sample using the cut of Fig 3 (attached).
The constraints for basic and supplementary charges for the cutting (Figure 3).
A load linearly variable seems to me the most responsive to reality.
The law of variation of the same is a bit more complicated to find.
I feel bound to consider the piece to rotate around the bottom edge (which is where the exhaust for welding).
Try to think of the equation shifts .... >>
SOMEONE CAN HELP ME? WHAT'S THE WAY TO INSERT IN WORKBENCH SOLUTION SETTING THE LINEAR VARIABILE LOAD ON THE SURFACES?
THANKS
Given the complex configuration of the structure, I wonder where I can tie the particular
I drew in Wbench based on its dimensions and where you should put a load otter stress state as the example.
Thanks
P.s. I am attaching more pictures if you want to maybe draw some sketches of them and load restraint
Somebody answer me this:
<<
In your place, noting the symmetry of the piece, the sample using the cut of Fig 3 (attached).
The constraints for basic and supplementary charges for the cutting (Figure 3).
A load linearly variable seems to me the most responsive to reality.
The law of variation of the same is a bit more complicated to find.
I feel bound to consider the piece to rotate around the bottom edge (which is where the exhaust for welding).
Try to think of the equation shifts .... >>
SOMEONE CAN HELP ME? WHAT'S THE WAY TO INSERT IN WORKBENCH SOLUTION SETTING THE LINEAR VARIABILE LOAD ON THE SURFACES?
THANKS