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Stress/Strain FE-Homogenization vs Experiments

Stress/Strain FE-Homogenization vs Experiments

Stress/Strain FE-Homogenization vs Experiments

(OP)
Hello,

(sorry for reposting, I found later,this forum may be more appropriate).

This is a general micromechanic question.

Suppose we have a microstructured 2-phases material with random inclusions (or a porous material with random pores) and we make a real tensile test (monoaxial loading in the vertical direction of a specimen with nominal length L). We want to model such tensile test with FEM (for instance with Abaqus) like in this pic:



We can model the microstructure of the material, meshing a 2D subregion of the real specimen (like in the attached pic), so that the FEM solver can output a "strain field" across the 2D region at each time step of the simulation. Here an example [LE is the total log.strain~eng.strain for small elong. values]:




The experiment measures the strain as dL/L, where dL is the total elongation of the sample at the initial stress-free reference configuration.

The simulation makes the Bottom nodes of the model fixed in y and assigns to the TOP nodes a prescribed maximal strain (for instance 1%). Left and Right nodes can move (poisson effect) but parallel on the vertical axis.

I am now going to compare the experimental stress/strain with the calculated ones.
How to calculate correctly the "homogenized"(average) stress/strain to get a 1:1 comparison with the experiment?

I see two options:

A. the more intuitive one, I just take the simulated strain at the TOP boundary nodes of my model during all the step of the sim (the final one is the prescribed strain), because this seems to be what is actually measured by the experiment. The same for the Stress, since the force is trasmitted trought the TOP line of the model.

B. from the theory of micromechanics (seen in some scientific papers) we should actually average both stress and strain over the surface (volume).

Q:  homogenizing stress by area is ok for me BUT for strain I have some doubts..: if a average strain over the area, than of course I underestimate the strain taken only from the TOP nodes (option A). This becasue I include in the average also those nodes closer to the fixed bottom part which have a lower strain.
What is the right way to calculate the average strain in order to compare it with experimental curves?

Thanks for help, Alex

RE: Stress/Strain FE-Homogenization vs Experiments

(OP)
PS: of course in B when I mean averaging over the surface I  mean over the 2D region of the micrograph, averaging by single element area to have mesh-indipendent results.
 

RE: Stress/Strain FE-Homogenization vs Experiments

(OP)
Errata: in Q, I said wrongly that the strain should be lower in the bottom part. I was referring to the total absolute local elongation (U in Abaqus). I don't know exactly how Abaqus calculates the strain of an element but it should be something like  Ui(x,y)/Hi(y) where Ui is the absolute elongation extrapolated at the center of the element and Hi is the vertical distance of the center to the origin.
 
The question is then changed to:
should "line average"  and "area average" of the strain be the same at equilibrium?
 

RE: Stress/Strain FE-Homogenization vs Experiments

(OP)
Thanks for answering.

Yes I am new here ;) . I informed the admin of my double posting, the old one should be removed.

As for the issue I proposed, I hope it will not be removed because it sounds academic.

I have to also add something.
I calculated both strain on TOP line and strain over area. The mismatch is surprisingly high.

<Strain>TOP_nodes ~ 5*<Strain>area !!! (the second one using LE output from Abaqus).

BR, Alex

RE: Stress/Strain FE-Homogenization vs Experiments

Presumably you measured applied load versus displacement measured over a gauge length?

Compare that graph with the same FE measurements.

RE: Stress/Strain FE-Homogenization vs Experiments

Taking engineering stresses and strains based on reaction force and displacement of the top nodes is most appropriate in this instance to allow a comparison with the experimental. Averaging strains will not allow any meaningful comparison. I presume you are using some form of crystal plasticity based material model?

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