@@CAESHOP Thank you so much! By the way, where did you get Goldak AM Definition? Is that an ACT which can be download in Ansys website? I only have DED Process extension in Ansys 2022R1.Thanks!
Please watch the video carefully. The temperature for the stress problem is taken from the thermal analysis, you can watch that video (ua-cam.com/video/0WukotX4RPQ/v-deo.html), the temperature at the end is above 200 degrees, not the ambient temperature. The resulting stress at the end point is over 300MPa, not the final stress.
caeshop.info/44/waam---stress-analysis
Excuse me, what's your idea of setting mechanical boundary, like nodal displacements and compression only support. Thanks
you can check information here: caeshop.info/44/waam---stress-analysis
@@CAESHOP Thank you so much!
By the way, where did you get Goldak AM Definition? Is that an ACT which can be download in Ansys website? I only have DED Process extension in Ansys 2022R1.Thanks!
@@peterchen1927 Hi, I write the ACT and sell it. you can send an email to: caeshopsp@gmail.com
Very nice. Can you please attach references for this stress analysis
this is an example, don't have reference for this stress.
@@CAESHOP how I will get this extension? Is it chargeable?
@@mathstrick2405 you can check it here: caeshop.info/42/waam---thermal-analysis
@@CAESHOP yup but it's only thermal analysis. What about stress analysis?
Good job :)
Your residual stress is higher than yield stress. It's not acceptable from a mechanical point of view.
Please watch the video carefully.
The temperature for the stress problem is taken from the thermal analysis, you can watch that video (ua-cam.com/video/0WukotX4RPQ/v-deo.html), the temperature at the end is above 200 degrees, not the ambient temperature. The resulting stress at the end point is over 300MPa, not the final stress.
@@CAESHOP I checked it. Its mean if you decrease the final temperature to ambient then stress will less than yield right?