Shah, S. Z. H.; Lee, J.; Megat-Yusoff, P.S.M.; Hussain, S. Z.; Sharif, T.; Choudhry, R.

Multiscale damage modelling of notched and un-notched 3D woven composites with randomly distributed manufacturing defects

Journal article

Shah, S. Z. H., Lee, J., Megat-Yusoff, P.S.M., Hussain, S. Z., Sharif, T. and Choudhry, R. 2023. Multiscale damage modelling of notched and un-notched 3D woven composites with randomly distributed manufacturing defects. Composite Structures. 318, pp. 1-17. https://doi.org/10.1016/j.compstruct.2023.117109

Publication dates
Authors	Shah, S. Z. H., Lee, J., Megat-Yusoff, P.S.M., Hussain, S. Z., Sharif, T. and Choudhry, R.
Abstract	This work proposes a stochastic multiscale computational framework for damage modelling in 3D woven composite laminates, by considering the random distribution of manufacturing-induced imperfections. The proposed method is demonstrated to be accurate, while being simple to implement and requiring modest computational resources. In this approach, a limited number of cross-sectional views obtained from micro-computed tomography (µCT) are used to obtain the stochastic distribution of two key manufacturing-induced defects, namely waviness and voids. This distribution is fed into a multiscale progressive damage model to predict the damage response of three-dimensional (3D) orthogonal woven composites. The accuracy of the proposed model was demonstrated by performing a series of finite element simulations of the un-notched and notched tensile tests (having two different hole sizes) for resin-infused thermoplastic (Elium®) 3D woven composites. Excellent correlation was achieved between experiments and the stochastic finite element simulations. This demonstrates the effectiveness of the proposed stochastic multiscale model. The model successfully captured the stochastic nature of tensile responses (ultimate tensile strength and stiffness), damage modes (matrix damage and fibre failure), and initiation and propagation of transverse cracks in thermoplastic 3D woven composites, consistent with experimental observation. The stochastic computational framework presented in this paper can be used to guide the design and optimization of 3D textile composite structures
Keywords	Multiscale; Progressive damage model; Stochastic; 3D woven fabric composites; Thermoplastic
Year	2023
Journal	Composite Structures
Journal citation	318, pp. 1-17
Publisher	Elsevier BV
ISSN	1879-1085
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.compstruct.2023.117109
Web address (URL)	https://www.sciencedirect.com/science/article/pii/S0263822323004531
Accepted author manuscript	Manuscript R1.docx License CC BY-NC 4.0 File Access Level Open
Output status	Published
Online	06 May 2023
Publication process dates
Accepted	02 May 2023
Deposited	26 Jun 2023

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