Mallor, C.; Sanchez, M.; Calvo, A.; Calvo, S.; R.-Wasik, H.; Escalera, F.M.d.l.
An Approach to Predict Fatigue Delamination Propagation in Curved Composite Laminates Under Non-Constant Mixed-Mode Conditions: Experiments and Simulation Correlation. Eng. Proc. 2026, 133, 154.
https://doi.org/10.3390/engproc2026133154
AMA Style
Mallor C, Sanchez M, Calvo A, Calvo S, R.-Wasik H, Escalera FMdl.
An Approach to Predict Fatigue Delamination Propagation in Curved Composite Laminates Under Non-Constant Mixed-Mode Conditions: Experiments and Simulation Correlation. Engineering Proceedings. 2026; 133(1):154.
https://doi.org/10.3390/engproc2026133154
Chicago/Turabian Style
Mallor, Carlos, Mario Sanchez, Andrea Calvo, Susana Calvo, Hubert R.-Wasik, and Federico Martin de la Escalera.
2026. "An Approach to Predict Fatigue Delamination Propagation in Curved Composite Laminates Under Non-Constant Mixed-Mode Conditions: Experiments and Simulation Correlation" Engineering Proceedings 133, no. 1: 154.
https://doi.org/10.3390/engproc2026133154
APA Style
Mallor, C., Sanchez, M., Calvo, A., Calvo, S., R.-Wasik, H., & Escalera, F. M. d. l.
(2026). An Approach to Predict Fatigue Delamination Propagation in Curved Composite Laminates Under Non-Constant Mixed-Mode Conditions: Experiments and Simulation Correlation. Engineering Proceedings, 133(1), 154.
https://doi.org/10.3390/engproc2026133154
