On 7/25/19 8:12 AM, Ramprasad R wrote:
>
> I would like to know if I can use one name space (step-x) in another name
> space (step-y). So that I can couple the 2 or more steps.
Yes, of course. These are just different namespaces. You can combine them in
one program in the same way as you can
Hello all,
I would like to know if I can use one name space (step-x) in another name
space (step-y). So that I can couple the 2 or more steps.
Thank you.
On Wednesday, June 26, 2019 at 11:30:21 AM UTC+2, Ramprasad R wrote:
>
> Hi Daniel,
>
> Thank you so much for your detailed Explanation. As
Hi Daniel,
Thank you so much for your detailed Explanation. As you said earlier, I
have to do the eigen value analysis. You explanation has given me an
approach to start with. I can not thank you enough.
Warm regards
Ramprasad
On Tue, Jun 25, 2019 at 6:27 PM Daniel Garcia-Sanchez <
On Monday, June 24, 2019 at 11:36:32 PM UTC+2, Ramprasad R wrote:
>
> Hello Bangerth,
>
> The terms N_* are the resultant forces in the * direction and these forces
> are calculated using the strains which in turn are calculated using the
> displacements u. So the terms N_* are not constants,
Hello Bangerth,
The terms N_* are the resultant forces in the * direction and these forces
are calculated using the strains which in turn are calculated using the
displacements u. So the terms N_* are not constants, rather change with
each element. And these values directly depend on u.
Thank
On 6/24/19 9:24 AM, Ramprasad R wrote:
>
> The following image has the exact formulation of the geometric stiffness
> matrix. Which is denoted by G in the image.
Ramprasad,
I don't think I quite understand the connection step-60. In the context
of that problem, for which of the two variables
On 6/22/19 3:46 AM, Ramprasad R wrote:
>
> I am a student in Technical University of Braunschweig, Germany. I am trying
> to work on a project for the aerospace department of my university. In this
> project I am trying to extend the step 60 tutorial into buckling analysis. I
> am trying to
Dear Sir/Madam,
I am a student in Technical University of Braunschweig, Germany. I am
trying to work on a project for the aerospace department of my university.
In this project I am trying to extend the step 60 tutorial into buckling
analysis. I am trying to find a function to calculate the
