Continue to Site

Eng-Tips is the largest engineering community on the Internet

Intelligent Work Forums for Engineering Professionals

  • Congratulations KootK on being selected by the Eng-Tips community for having the most helpful posts in the forums last week. Way to Go!

Search results for query: *

  1. apal21

    Joining together two edges and solving for minimum energy shape

    @IceBreakerSour, what exactly do you mean when you say Explicit does not enforce equilibrium? It time-integrates Newton's second law, so that is enforcing force balance, and hence equilibrium, at every step right. Right? Also, what does stabilisation through inertia mean? Shouldn't greater...
  2. apal21

    Joining together two edges and solving for minimum energy shape

    So you mean a dynamic, explicit analysis?
  3. apal21

    Joining together two edges and solving for minimum energy shape

    No, it's just supposed to replicate my bending a sheet of paper with my hands, and then taping up two ends. Can you think of a direct equivalent to that in Abaqus?
  4. apal21

    Joining together two edges and solving for minimum energy shape

    Interesting! The rigid cone seems to be the easier solution. Could you tell me how to go about wrapping something over something else in Abaqus?
  5. apal21

    Joining together two edges and solving for minimum energy shape

    Hello, I have a simple conceptual toy problem that I am trying to implement in Abaqus, but without success. Could someone please help me? I have a cut sector of an annular sheet (see picture). Imagine it to be made of paper in real life. If I now bring the two edges (lying along the x-axis...
  6. apal21

    Do Implicit and static simulations use the mass density parameter?

    So, to summarise, dynamic analyses (explicit or implicit) always require a mass densit, whereas a static analysis only requires it for gravity/inertia loads? Perfect, thank you!
  7. apal21

    Do Implicit and static simulations use the mass density parameter?

    Hello, I had a question relating to the difference between Explicit and Implicit solvers, especially in the quasi-static limit. I know that Abaqus simulations require us to specify a mass density. I can understand that this is essential for Explicit jobs, which are designed to take inertia into...
  8. apal21

    Extract surface normals from odb

    OK understood, thank you very much.
  9. apal21

    Extract surface normals from odb

    And can I read these files directly using software like Matlab? Or what do I need to read these files?
  10. apal21

    Extract surface normals from odb

    Thank you. If I have understood correctly, for a Standard analysis, this generates a .fil file, and for an Expicit analysis, this generates a .sel file? Can both of these be read later in Matlab as a text file?
  11. apal21

    Extract surface normals from odb

    Hello, I know that one can plot the surface normals in Abaqus using Plot->Orientation. I want to know the values of these (unit) normals, i) either by copying it directly from Abaqus, or better still, 2) extracting these surface normals using python as part of post-processing, much like any...
  12. apal21

    Does numerical dissipation in FE simulations affect system's elastic energy? Does it depend on thick

    I have plotted out various energies in both Implicit and Explicit, but none of them seem to tell me anything about numerical dissipation. Among all the energies here (https://abaqus-docs.mit.edu/2017/English/SIMACAEGSARefMap/simagsa-c-qsienergybal.htm), the only ones of any importance to my case...
  13. apal21

    Does numerical dissipation in FE simulations affect system's elastic energy? Does it depend on thick

    The static solver didn't work. The job ended with an error before even finding any wrinkling. Can you suggest any other solvers?
  14. apal21

    Does numerical dissipation in FE simulations affect system's elastic energy? Does it depend on thick

    Okay, I will try out the static solver then. Maybe that will help.
  15. apal21

    Does numerical dissipation in FE simulations affect system's elastic energy? Does it depend on thick

    Yes, I looked at all the energies. What do you mean by different solver settings? Could you please elucidate?
  16. apal21

    Does numerical dissipation in FE simulations affect system's elastic energy? Does it depend on thick

    Hello, I asked a question on Engineering Stackexchange, but I think it might have a better chance of being answered on this Abaqus-only forum. Can anyone help me? The post has all the details, including pictures...
  17. apal21

    Understanding dynamic, implicit method: what is numerical dissipation?

    Understood. So for a quasi-static application, instability should generally not be an issue. Is that correct?
  18. apal21

    Understanding dynamic, implicit method: what is numerical dissipation?

    And are there any adverse effects to this numerical damping? Could it lead to instabilities which give me an un-physical answer?
  19. apal21

    Understanding dynamic, implicit method: what is numerical dissipation?

    Hello, I am using dynamic, implicit integration (quasi-static mode) in an analysis, and I am trying to understand how it works. The documentation (https://abaqus-docs.mit.edu/2017/English/SIMACAEANLRefMap/simaanl-c-dynamic.htm) talks about using 'numerical dissipation'. What does that mean? How...

Part and Inventory Search