OK...I've set up the analysis exactly the same way in Nastran (but many more tet10 elements) but I'm getting wildly different results - max deflection 0.82mm, the stress field is pretty much the same but the values on the bolt itself are very much higher - max 2100MPa. Others?
Ok...Two things...1 - My hug stress level is a singularity due to the way I need to apply preload in Nastran. 2 - The author has shown X-axis directional displacement instead of Total displacement. My Nastran outcomes align nicely now. Fields looks similar, however displacement calues are a bit different in X direction, range = -0.16 to +0.0187 compared to author's -0.1 to 0.023
When I model a bolt preload for a bolted joint, I generally don't look at the stress in the bolt because I idealize the bolt leaving a sharp interior corner that creates a singularity. I use a separate Excel spreadsheet for bolt stress calculations. The Ansys model is used to evaluate the stress in the two parts that are being loaded after being bolted together.
You can use a minimum of 1 N-R Residual Force plot. It doesn't cost much to have more than one. On some problems, the location of the maximum NR residual bounces around the model so 3 to 6 is a good number to see if the location is consistent so you can be confident that you are refining the mesh at the right location.
You must have a solid body with a cylindrical face on it. If you need more help, become a member on studentcommunity.ansys.com and create a New Discussion.
One substep might be too few and cause the solver to do a bisection on the stepsize, wasting time. It might solve with 3 substeps, but each one might need more iterations.
Your instructions are clear and concise. Thank you so very much!
Helpful instructions, thank you.
THANKS A LOT for this amazing tutorial. really really helpful for beginner
OK...I've set up the analysis exactly the same way in Nastran (but many more tet10 elements) but I'm getting wildly different results - max deflection 0.82mm, the stress field is pretty much the same but the values on the bolt itself are very much higher - max 2100MPa. Others?
Ok...Two things...1 - My hug stress level is a singularity due to the way I need to apply preload in Nastran. 2 - The author has shown X-axis directional displacement instead of Total displacement. My Nastran outcomes align nicely now. Fields looks similar, however displacement calues are a bit different in X direction, range = -0.16 to +0.0187 compared to author's -0.1 to 0.023
When I model a bolt preload for a bolted joint, I generally don't look at the stress in the bolt because I idealize the bolt leaving a sharp interior corner that creates a singularity. I use a separate Excel spreadsheet for bolt stress calculations. The Ansys model is used to evaluate the stress in the two parts that are being loaded after being bolted together.
And why 6 in the Newton Rapson residuals?
You can use a minimum of 1 N-R Residual Force plot. It doesn't cost much to have more than one. On some problems, the location of the maximum NR residual bounces around the model so 3 to 6 is a good number to see if the location is consistent so you can be confident that you are refining the mesh at the right location.
Hello can u show me how to model a multi storey building with courtyard
Thanks in advance
how many nodes generated in this model? I think academic version has to be limited to 1000 nodes
The free Student license has a node or element limit of 32,000. This model easily fits within that limit, it has 8,775 nodes.
I am unable to select faces to apply pretension. Could you please help me with this problem?
You must have a solid body with a cylindrical face on it. If you need more help, become a member on studentcommunity.ansys.com and create a New Discussion.
Why 5 substeps?
One substep might be too few and cause the solver to do a bisection on the stepsize, wasting time. It might solve with 3 substeps, but each one might need more iterations.
The volume is too low.