Journal article
D.M. Thomson, H. Cui, B. Erice, J. Hoffmann, J. Wiegand, N. Petrinic
Composite Structures, vol. 181, 2017, pp. 325-335
Composite Structures, vol. 181, 2017, pp. 325-335
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APA
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Thomson, D. M., Cui, H., Erice, B., Hoffmann, J., Wiegand, J., & Petrinic, N. (2017). Experimental and numerical study of strain-rate effects on the IFF fracture angle using a new efficient implementation of Puck's criterion. Composite Structures, 181, 325–335.
Chicago/Turabian
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Thomson, D.M., H. Cui, B. Erice, J. Hoffmann, J. Wiegand, and N. Petrinic. “Experimental and Numerical Study of Strain-Rate Effects on the IFF Fracture Angle Using a New Efficient Implementation of Puck's Criterion.” Composite Structures 181 (2017): 325–335.
MLA
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Thomson, D. M., et al. “Experimental and Numerical Study of Strain-Rate Effects on the IFF Fracture Angle Using a New Efficient Implementation of Puck's Criterion.” Composite Structures, vol. 181, 2017, pp. 325–35.
BibTeX Click to copy
@article{thomson2017a,
title = {Experimental and numerical study of strain-rate effects on the IFF fracture angle using a new efficient implementation of Puck's criterion},
year = {2017},
journal = {Composite Structures},
pages = {325-335},
volume = {181},
author = {Thomson, D.M. and Cui, H. and Erice, B. and Hoffmann, J. and Wiegand, J. and Petrinic, N.}
}
