if you allow me I will reload the case file again the material is FG epoxy glass composite with continuous elastic variation in young's modulus. I defined the materials as a function of temperature as an analytical field. the test is 3 point bending beam by using the digital image correlation...
the difference is large for example at loaded 2245N KI in abaqus =29.48 but in (dic) test =37.15, T-stress in abaqus=10.44 in experiment=1.66
https://files.engineering.com/getfile.aspx?folder=2cf3e6a0-21a3-485c-b6d6-04f9453a82d4&file=DIC_image.jpg
hi
I'm working on the calculation of SIFs and T-stress I need to know if there is any wrong in my model
because the experimental results do not match the numerical results from ABAQUS
any help will be useful to me
best regard...
if I make the material properties depend on the temperature. I suppose that temperature values are fake because there is no thermal analysis. can I put any values of temperature and without changing anything in my model like partitioning it as you know there are some researchers suggest...
hi
I need help in writing a subroutine to represent continuously graded materials so that the young's modulus and the Poison ratio are variable with the location.
thank's for your help when I check the event error I get an attached lest of errors but don't recognize the reason for my problem https://files.engineering.com/getfile.aspx?folder=7a47e771-89d9-432e-bf01-1e2903ac634e&file=error_evevnt.png
hi
I'm trying to write a simple USDFLD subroutine to represent a continuous FGM material in Abaqus, I'm new with this work when I submit the job I have a message with an error during compilation. I check the linking as attached
any help will be useful...
