Hello,
Thank you for recommending the paper, I will check it out.
For calculation
I created a reference Point RP1 on the top surface and used the coupling constraint for the top surface and the RP1. in history output I chose to calculate the Reaction force 2 (RF2) at the reference point. So...
Hello @SWComposites,
I was able to run the simulation and get the values as follows
RF2 at RP1 (F)= 520.759N
Displacement at RP1 (D)= 2mm
Length of lattice (L)= 6.7mm
Area of the Square (A)= 6.7*6.7=44.89mm^2
therefore stress/strain = (520.759N/44.89mm^2)/(2mm/6.7mm)= 11.600/0.289 = 40.13...
Hello,
Thank you for your suggestion. I will try the procedure you mentioned and update you with the answers. in the meantime PFA the 2 papers in literature from which I am referring parameters and resulting values
1) Comparative evaluation of printability and compression properties of...
@SWcomposites thank you for your suggestion. I have a few questions regarding it. What will be the cross section area with respect to my geometry. I am applying a fixed displacement so that I get convergence as when I applied pressure to the top surface it was not converging.
In which plane...
For getting the 3.5 GPa
In XY data- ODB field output-
position = centroid
Identifiers = Logarithmic Strain Components (LE) - LE22
Stress components (S)- S22
In the elements and nodes tab
method- Element Set- all elements
I click on save as and average values. then in...
https://gmuedu-my.sharepoint.com/:u:/g/personal/kgide_gmu_edu/ERERiTrNwMhKk7_G9VOfhFQBmw4GIzbLT-_rGXw8ERFRxQ?e=veeolQ
This is the link to the cae file. I cant upload it normally as it is bigger than the 20mb limit
I am using the LE22 and S22 components of stress and strain. I am selecting the entire model and taking the average of the values at each increment. I have double-checked the input values units.
Geometry is in mm, E is in MPa v is unitless. displacement in mm.
"how can I calculate the stiffness of this structure?" Isn't that what you are asking when you ask about Young's modulus YES. But I have also read youngs modulus is the material property and Stiffness considers the geometry effect. That is why I asked the question. I am confused about this...
Yes, I calculated using that method. My values are around 3.5 GPa but according to the literature the values for such lattice structure should be within the range of 350-600 MPa.
Thanks
Hello,
I am simulating a compression test on a gyroid lattice structure in abaqus cae. The geometry has solid surfaces on top and bottom and in between there is a gyroid lattice structure. The model is 10 mm in LXBXH.I applied a displacement of 2 mm on the top surface and fixed the bottom plate...
