Interlaminar shear strength and self-healing of spread carbon fiber/woven carbon fiber hybrid reinforced epoxy resin laminates containing microcapsules
Author:
Affiliation:
1. Department of Mechanical Systems Engineering, Toyama Prefectural University
Publisher
Japan Society of Mechanical Engineers
Link
https://www.jstage.jst.go.jp/article/mej/11/4/11_24-00001/_pdf
Reference25 articles.
1. Ahmed, A., Sanada, K., Fanni, M. and El-Moneim, A. A., A practical methodology for modeling and verification of self-healing microcapsules-based composites elasticity, Composite Structures, Vol.184 (2018), pp.1092-1098.
2. Bostanabad, R., Liang, B., Gao, J., Liu, W. K., Cao, J., Zeng, D., Su, X., Xu, H., Li, Y. and Chen, W., Uncertainty quantification in multiscale simulation of woven fiber composites, Computer Methods in Applied Mechanics and Engineering, Vol.338 (2018), pp.506-532.
3. Brown, E.N., White, S.R. and Sottos, N.R., Microcapsule induced toughening in a self-healing polymer composite, Journal of Materials Science, Vol.39 (2004), pp.1703-1710.
4. Brunbauer, J., Stadler, H. and Pinter, G., Mechanical properties, fatigue damage and microstructure of carbon/epoxy laminates depending on fibre volume content, International Journal of Fatigue, Vol.70 (2015), pp.85-92.
5. Daniel, I.M. and Ishai, O., Engineering mechanics of composite materials, 2nd ed, Oxford University Press, (2006), p. 375.
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