drodrig
Mechanical
- Mar 28, 2013
- 262
Hi there,
I'm a casual FEA user with a basic knowledge. The programs I use are Ansys workbench and the FEA module of CatiaV5.
Putting loads and meshing can be achievable, the problem is understanding the results.
We have two aluminium alloy plates. They are 20 mm thick; check the attached pictures. The round holes are the supports (fixed surfaces in the analysis) and then we apply a difference of 45ºC of temperature.
- p18 01 is the small plate, ~125 mm the longest direction
- fa 01 is the big plate, ~750 mm of "diameter"
We want to study if we make a big plate or a combination of small ones. The advantage is the combination of small plates won't suffer much for the thermal shrinking but it needs more supports (two per plate)
The results of the simulation:
- p18 02: stresses in the small plate: 347 MPa which is unacceptable. But this happens on a edge next to the fixed support. Is this realistic? The stresses gradient if very big, I can't tell if this is really true.
- p18 03: here are the deformations
- fa 02: stresses in the big plate. Again here we see stresses concentration in the fixed supports (round holes) and big gradients
- fa 04: detail of the stresses
- fa 03: deformation
What do you think? can one believe these results?
Thank you
I'm a casual FEA user with a basic knowledge. The programs I use are Ansys workbench and the FEA module of CatiaV5.
Putting loads and meshing can be achievable, the problem is understanding the results.
We have two aluminium alloy plates. They are 20 mm thick; check the attached pictures. The round holes are the supports (fixed surfaces in the analysis) and then we apply a difference of 45ºC of temperature.
- p18 01 is the small plate, ~125 mm the longest direction
- fa 01 is the big plate, ~750 mm of "diameter"
We want to study if we make a big plate or a combination of small ones. The advantage is the combination of small plates won't suffer much for the thermal shrinking but it needs more supports (two per plate)
The results of the simulation:
- p18 02: stresses in the small plate: 347 MPa which is unacceptable. But this happens on a edge next to the fixed support. Is this realistic? The stresses gradient if very big, I can't tell if this is really true.
- p18 03: here are the deformations
- fa 02: stresses in the big plate. Again here we see stresses concentration in the fixed supports (round holes) and big gradients
- fa 04: detail of the stresses
- fa 03: deformation
What do you think? can one believe these results?
Thank you
http://files.engineering.com/getfile.aspx?folder=4352c78f-facc-4118-bb12-cd64d49150f2&file=fa_01.png
http://files.engineering.com/getfile.aspx?folder=c4fb0b60-a0ad-42cf-a658-99a33535ea80&file=fa_02.png
http://files.engineering.com/getfile.aspx?folder=060aacd7-3fa5-4da6-b8bc-be056b1238d1&file=fa_03.png
http://files.engineering.com/getfile.aspx?folder=30cae623-fa0e-4806-bdc6-cb0944f22f43&file=fa_04.png