This discussion focuses on modeling a variable cross-section for beam elements in ANSYS. Users can define multiple cross-sections using the SECTYPE and SECDATA commands, with options for both step changes and taper sections. For arbitrary cross-sections, importing geometry via IGES and utilizing MESH200 element types is recommended. The discussion also highlights the importance of using the /ESHAPE command for taper sections to ensure proper meshing.
PREREQUISITES
Familiarity with ANSYS software and its modeling environment
Understanding of beam element types, specifically BEAM183 and MESH200
Knowledge of the SECTYPE and SECDATA commands in ANSYS
Basic skills in geometry creation and manipulation within ANSYS
NEXT STEPS
Research the use of the SECWRITE and SECREAD commands for managing section data files in ANSYS
Learn about the TAPER beam section functionality and its application in ANSYS
Explore the process of importing geometry from IGES files into ANSYS
Study the meshing techniques specific to beam elements in ANSYS, focusing on BEAM183
USEFUL FOR
Engineers and designers working with structural analysis in ANSYS, particularly those focused on modeling complex geometries with variable cross-sections.
#1
lskrinjar
1
0
I would like to model in ansys a one-half of a ring with variable cross-section.
What is the easiest way to define variable cross-section for elements in ansys?
Do I have to define 5 (for example) different cross-section for each of 5 elements, if I create 5 beam element with different cross-sections and other section properties?
Can I import the table of cross-section and then somehow link it with the element type properties? Which element type can I link with the imported table?
I don't know with which element types does function preprocesor-sections-beam-... work.
Are the cross-sections step change? Either way, here's what you'll do
Enter cylindrical coordinate system, CSYS,1
Create keypoint at 0,0
Create keypoints at each point where the cross section changes, and the end. You should have 6 total keypoints over the semi-circle
Join these keypoints with arcs, LARC,kp_start,kp_end,radius
You now have the geometry. You'll next need to create your materials and cross sections. Here's where the step or linear change comes into play. If your cross sections are simply step changes, then simply define each cross section, for a total of 5 cross-sections. It will look something like this:
That is, if you're lucky enough to have your cross-sections definable by the beam cross sections. If they are arbitrary cross sections, then you can import your cross-sections as IGES or whatever, and mesh them using MESH200 element types. Finally I believe there is a command called SECWRITE, which will write out a section data file. Then, you're command for each section will look something like:
Code:
SECTYPE,1,name,MESH
SECREAD,file,sect
*Note that syntax is probably messed up so consult the guide.
Now...if your cross sections are not step changed, but if they are similar shape but taper themselves, then you can use TAPER beam sections. For a taper section, you define the starting cross-section and the ending cross-section, and then define an additional cross-section with a taper type. It will look something like this:
Again, I'm not sure about the syntax, but basically the TAPER SECDATA simply defines the two cross sections that you want to use. Actually, there are coordinates in there as well. Starting and ending coordinates. It is important when using TAPER sections that you follow your meshing up with an /ESHAPE,1 to make sure everything looks OK. Taper sections can be a little bit of a pain in the ***.
Finally, simple mesh over the lines with the appropriate BEAM element type to generate the elements. IIRC, there is a BEAM183, so create your beam element type, and then you can just change your section in a DO loop or something, ala: