Plastic deformation, or just cracks?

AI Thread Summary
The discussion centers on interpreting ANSYS model results for a cantilever plate made of thin metal, which is fixed at one end and displaced at the other. A significant concern arises from a reported peak von Mises stress concentration of 180 ksi near a hole in the plate, exceeding the material's expected yield strength by 150 ksi. Participants emphasize the importance of understanding the material's mechanical properties, including tensile strength and fracture mechanics, to assess the likelihood of plastic deformation in the stressed area. They suggest evaluating the stress-strain behavior and limit load, as well as considering factors like temperature that could influence crack initiation and propagation. Additionally, clarification on how the stress value was calculated is necessary for a comprehensive analysis.
MJCfromCT
Messages
20
Reaction score
0
Hi everyone,

I'm having a bit of difficulty interperting the results of an ANSYS model I'm currently running. This is of a small, thin piece of metal (0.018" in thickness, ~1"x1" length x width), that I am fixing at one end and displacing the other end ~0.015". Essentially this is a cantiliver plate. On the plate, near the fixed end, are a series of small holes. ANSYS reports that at the boundary of one of the holes, there will be a peak stress concentration of 180ksi. This is when plotting von mises stress. This is about 150ksi higher than what I think this piece can handle.

Is there any way to determine if this piece will plastically deform in the area of the stress concentration, making the stress concentration a non-issue? On the other hand, is there some sort of rule-of-thumb to determine if initiating a crack could be a concern?

Thanks in advance, and I'd be happy to provide any additional information.
 
Engineering news on Phys.org
For both of your questions I'd start by asking what you know about the material in question with respect to mechanical properties (anything about tensile and fracture mechanical would be a start along with some sort of a "classification" what it is in general). The judgment would have to be done on the basis of stress-strain behavior / limit load and then progress towards a fracture mechanical approach with respect to the crack initiation & propagation part (and under what sort of conditions these might occur ... starting with temperature and such). And also would need to know how you arrived at your stress value, elastic analysis imagine?
 

Similar threads

Back
Top