Muhammad,
> Hi! I am successful in running the code and it
> is without a doubt a nice addition to deal.ii code gallery. It reproduces the
> expected result for 3d Beam case now.
Great. Can you say what you had to change to make things run? We should apply
thes
Similarly the example output log file is attached where the case is being
simulated in which the gravity is acting for first two loading cases (which
converge successfully) and from 3rd step the thermal load is started acting
upon the plate and from this very loading step the Newton solution wit
Dear Prof Wolfgang,
Hi! I am successful in running the code and
it is without a doubt a nice addition to deal.ii code gallery. It
reproduces the expected result for 3d Beam case now.
Since I did not find any thermomechanical coupled example so far in deal.ii
therefo
Thank you Prof Wolfgang for your possible support and concern. I will be
waiting for the further support from the author to successfully run it and
to understand the workflow correctly.
On Saturday, June 22, 2019 at 1:51:10 AM UTC+2, Wolfgang Bangerth wrote:
>
>
> Muhammad,
> let me bring the
Muhammad,
let me bring the original author of the program (Seyed Shahram Ghorashi) into
the loop as well.
> I ran the case of "Cantiliver_beam_3d" and it returned the results after
> couple of minutes as mentioned in the attachement (where per time step,
> seemingly only one iteration was per
Thank you Prof. Wolfgang for the response! I will try my best to elaborate
it more.
I ran the case of "Cantiliver_beam_3d" and it returned the results after
couple of minutes as mentioned in the attachement (where per time step,
seemingly only one iteration was performed in Newton method and in
On 6/17/19 1:50 AM, Muhammad Mashhood wrote:
> I recently started working with deal.ii and want
> to work with material models from material mechanics. For this so far I came
> across nicely written and well worked code of "The 'Goal-oriented mesh
> adaptivity in ela
Dear deal.ii users,
I recently started working with deal.ii and
want to work with material models from material mechanics. For this so far
I came across nicely written and well worked code of "The 'Goal-oriented
mesh adaptivity in elastoplasticity problems " in the co