As already mentioned, you may need to tighter the convergence criteria as the confinement effect can be very sensitive to the lateral stresses.

> In a second model I modelled 1/4 symmetry but I think there is no chance to simulate a biaxial
> failure with it because of the confinement effect.

Why??? The BCs other than the symmetry ones are defined and act the same as for the full model.

> It would be great if I could send you my GiD model. Should I send it to the cervenka contact
> mail-adresse on your homepage or can I send it directly to you?

Please send as instructed in ATENA Troubleshooting, 2.1.1 I have a problem not listed here.

now I have a good single element model but the results for the biaxial stress state are nearly 8% above the analytical solution of the willam-menetrey failure law.

In a second model I modelled 1/4 symmetry but I think there is no chance to simulate a biaxial failure with it because of the confinement effect.

It would be great if I could send you my GiD model. Should I send it to the cervenka contact mail-adresse on your homepage or can I send it directly to you?

one of the nodes is fixed in each direction so rigid body rotations are blocked.

Maybe I will explain you my intention:
I want to do a patch test on a single solid element to evaluate the bi- and triaxial compressive strength. Then I want to change the eccentricity factor e (from the Willam-Menetrey failure surface) to evaluate its influence on the bi- and triaxial strength.

Is this possible with just one element? I think of a displacement on three sides of the element (for biaxial failure) and on five sides for triaxial failure. In the bi-axial state the compressive strength has to be around 1.2 times of the uniaxial strength (e=0.52), this is what I want to check with the patch-test.

My problem is that if I take the CC3DNonLinCementitious2 material with a concrete strength of fc=-50 MPa and I just have one load direction (uniaxial) the finite element has to yield at the minimum principal stress of -50 MPa (its kind of a very simplified patch-test).

I am taking a 8 node solid element. 4 nodes are loaded with a uniaxial displacement till the element will yield. The other 4 nodes are fixed with boundaries in load direction. One of these nodes is fixed in the other two directions too (for numerical forces in these directions).

Please also read ATENA Troubleshoting, 2.1.21 The tensile (or compressive) stresses exceed the tensile (or compressive) strength or yield stress – what is wrong?

I'm trying to simulate a uniaxial compression test at a concrete cube (3D). I'm using the EC2 C50/60 so the compression strength is fc=-50 MPa. The modelled cube (just one 3D solid element) is loaded with a displacement till it will yield and with the maxmin-Volume-monitor the minimum stress and strain can be displayed.
The problem is that the cube yields at ca. -52,4 MPa not at -50MPa. Boundary conditions are right and the load steps are really small.
So why is the yielding strength not -50 MPa?