My purpose is to model a process of dynamic vesicle spreading severely
on a substrate.
Initially, the vesicle is a hollow sphere (may be filled with liquid).
It's made of thin membrane subjected to adhesive force from its substrate.
(Please see the attachment, it's an illustration of cell...
It is recounted in ABAQUS/Doc that for 2nd order element,
time increment 'Delta t' should be
Delta t > (Density*Specific heat)*(Delta L)^2/6k
where k is the thermal conductivity. ^2 means power law of 2
Delta L stands for the typical element size.
Also, it's stated that for 1st order...
corus,
Did you mean you meet the same problem by finite difference method? I'm not sure if what I met is akin to
the instability to FDM. However, my model is fully coupled thermal-stress analysis with contact and geometrically nonlinearity, the considerable spurious oscillation may be not...
Hi, Robert
What I used is S4T in Abaqus which is fully coupled
thermal-stress shell elements(with 4 nodes). "with time savings of simpler elements"? Would you please make me clearer?
ABAQUS/Doc suggests me to user finer mesh, but my problem
is, I think it already very fine. Because it's...
Your stent can never be "totally support free", Dude.
Did you mean it's suspended in vacuum far from the earth?
So you can either think of its loads or to simplify the boundary condition as a point constraint or sth.
Describing your model in more detail might draw more helps to you.
I've met a problem with ABAQUS.
In fully coupled thermal-stress analysis (or just simple heat transfer analysis), there's a phenomenon called
"Spurious oscillation", which is stated in ABAQUS/Doc as below:
Spurious oscillations due to small time increments
In transient analysis with...
I'll have to solve a coupled diffusion-displacement, or to say, reaction-diffusion problem. I'm not sure which commercial FEA software can solve this kind of problem.
In my model, mechanical deformation is influenced by mass diffusion and vice versa.
Thanks!
Suppose I'm composing a simple FE program by myself.
Like Daniel's comments. We have a FE model with only one
quadrilateral element, which has four nodes 1,2,3,4
4--------3
| |
| |
1--------2
if we numbering the nodes by 1 2 3 4, and let its true solution
(say, temperature)...
As I knew from some finite element books, the numbering of the nodes of element can't be arbitrary. It should be
counter-clockwise ( in 2-D case). Is it true? What will
happen if I set the numbering as clockwise or any other?
I just don't understand. Thanks!
Tianle Cheng
Hi, all
I've been working on finite element analysis on fiber composites before. I'm now a newcomer on biomechanics,
whoever could recommend me a comprehensive or farsighted
review on biomechanics?
Thanks in advance!