Nick,
There is no built-in functionality in deal.II to support axisymmetric
problems. The best approach is probably reformulate your problem in
cylinder coordinates similarly as discussed in
https://groups.google.com/forum/#!searchin/dealii/rotational$20symmetry|sort:date/dealii/IPO7vDx0WnI/01J-Kn
Dear Bruno,
thanks again for bothering!
I will try to do that, but it is a bit involved, since I was setting up
block-matrices, which i need to change!
For pure Dirichlet, enclosed flow problems I did the same as for step-55f,
which is basically nothing
(the iterative solver handles the pressur
Thank you for the response Prof. Wolfgang. My apology for the confusion. I
will try to clear my concern as follows:
In my question I meant whether is it possible to evaluated plastic strain
component from currently implemented plasticity algorithm as a further
development of this code?
I would
On 2/21/20 4:25 AM, Muhammad Mashhood wrote:
Thank you for sharing the tutorial step. I
am using the plasticity (material non linearity) part of it with the surface
force (Neuman BC) as a mechanical load. When I remove the load the plasticized
domain comes bac
Dear Prof. Wolfgang,
Thank you for sharing the tutorial step.
I am using the plasticity (material non linearity) part of it with the
surface force (Neuman BC) as a mechanical load. When I remove the load the
plasticized domain comes back to its original (undefor