Mat_Aero
Aerospace
- Mar 4, 2019
- 9
Hello everyone,
I have a question regarding the 6060. Laminate Max. failure Index computation in Femap. I’ve created basic 2D model of rectangular CFRP plate(M55J prepreg) with layup [(0/+-25/0)2/0]s. I’ve applied tensile load on one end and fixed constraint on the other and performed the analysis. As failure criteria I’ve selected the Tsai-Wu. When I plot the 6060. Laminate Max. failure Index output vector, I see max FI≈0.91 in central bottom part of CFRP plate, however when I checked the FI for each ply independently I’ve noticed that maximum FI was ≈0.11 and lowest FI was ≈-0.91. From that it seems to me that Femap puts the absolute value of FI into 6060. Laminate Max. failure Index output vector which is confusing and does not correspond to real values. I understand that strength ratio is more relevant value to look on, especially for non-linear criteria like Tsai-Wu but can anybody confirm that it is software bug or is there something that I am missing? Thank you for reply. I’ve attached the bdf file of FEM model.
Mat
Images:
BDF:
I have a question regarding the 6060. Laminate Max. failure Index computation in Femap. I’ve created basic 2D model of rectangular CFRP plate(M55J prepreg) with layup [(0/+-25/0)2/0]s. I’ve applied tensile load on one end and fixed constraint on the other and performed the analysis. As failure criteria I’ve selected the Tsai-Wu. When I plot the 6060. Laminate Max. failure Index output vector, I see max FI≈0.91 in central bottom part of CFRP plate, however when I checked the FI for each ply independently I’ve noticed that maximum FI was ≈0.11 and lowest FI was ≈-0.91. From that it seems to me that Femap puts the absolute value of FI into 6060. Laminate Max. failure Index output vector which is confusing and does not correspond to real values. I understand that strength ratio is more relevant value to look on, especially for non-linear criteria like Tsai-Wu but can anybody confirm that it is software bug or is there something that I am missing? Thank you for reply. I’ve attached the bdf file of FEM model.
Mat
Images:
BDF: