The influence of laminate stacking sequence on ballistic limit using a combined Experimental/FEM/Artificial Neural Networks (ANN) methodology


Journal article


J.A. Artero-Guerrero, J. Pernas-Sánchez, J. Martín-Montal, D. Varas, J. López-Puente
Composite Structures, vol. 183, 2018 1, pp. 299-308

Cite

Cite

APA
Artero-Guerrero, J. A., Pernas-Sánchez, J., Martín-Montal, J., Varas, D., & López-Puente, J. (2018). The influence of laminate stacking sequence on ballistic limit using a combined Experimental/FEM/Artificial Neural Networks (ANN) methodology. Composite Structures, 183, 299–308.

Chicago/Turabian
Artero-Guerrero, J.A., J. Pernas-Sánchez, J. Martín-Montal, D. Varas, and J. López-Puente. “The Influence of Laminate Stacking Sequence on Ballistic Limit Using a Combined Experimental/FEM/Artificial Neural Networks (ANN) Methodology.” Composite Structures 183 (December 1, 2018): 299–308.

MLA
Artero-Guerrero, J. A., et al. “The Influence of Laminate Stacking Sequence on Ballistic Limit Using a Combined Experimental/FEM/Artificial Neural Networks (ANN) Methodology.” Composite Structures, vol. 183, Dec. 2018, pp. 299–308.


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