Research
Thesis
MECHANICAL AND PHYSICAL PROPERTIES OF NANO-STRUCTURED AND ENVIRONMENTALLY FRIENDLY MATERIALS.
Publications
2024
2022
- Zhang, Z., Zhu, H., Yuan, R., Wang, S., Fan, T., Rezgui, Y. and Zhang, D. 2022. The near-isotropic elastic properties of interpenetrating composites reinforced by regular fibre-networks. Materials & Design 221, article number: 110923. (10.1016/j.matdes.2022.110923)
2020
- Zhang, Z., Zhu, H., Yuan, R., Wang, S., Fan, T., Rezgui, Y. and Zhang, D. 2020. Auxetic interpenetrating composites: A new approach to non-porous materials with a negative or zero Poisson's ratio. Composite Structures 243, article number: 112195. (10.1016/j.compstruct.2020.112195)
- Zhang, Z. 2020. The elastic properties of Interpenetrating Phase Composites reinforced by regular lattice and Voronoi fibre networks. PhD Thesis, Cardiff University.
2018
Conferences
- Zhu, H. and Zhang, Z. 2024. Interpenetrating composites with enhanced stiffness, desired Poisson's ratio and superior conductivity. Presented at: Cardiff University School of Engineering Research Conference, Cardiff, Wales, 12-13 June, 2024.
- Zhang, Z., Zhu, H. and Rezgui, Y. 2018. Comparison of lattice structured interpenetrating composites with enhanced Young's modulus. Presented at: 6th European Conference on Computational Mechanics, Glasgow, UK, 10-15 June 2018.
Articles
- Zhang, Z., Zhu, H., Yuan, R., Wang, S., Fan, T., Rezgui, Y. and Zhang, D. 2022. The near-isotropic elastic properties of interpenetrating composites reinforced by regular fibre-networks. Materials & Design 221, article number: 110923. (10.1016/j.matdes.2022.110923)
- Zhang, Z., Zhu, H., Yuan, R., Wang, S., Fan, T., Rezgui, Y. and Zhang, D. 2020. Auxetic interpenetrating composites: A new approach to non-porous materials with a negative or zero Poisson's ratio. Composite Structures 243, article number: 112195. (10.1016/j.compstruct.2020.112195)
Thesis