Dr Zahur Ullah's Outputs (4)

Reliability analysis of laminated fibre reinforced composites using stochastic multi-scale finite element method (2015)
Presentation / Conference Contribution
Zhou, X. Y., Gosling, P. D., Ullah, Z., Kaczmarczyk, L., & Pearce, C. J. (2015, November). Reliability analysis of laminated fibre reinforced composites using stochastic multi-scale finite element method. Presented at 13th International Probabilistic Workshop (IPW2015), University of Liverpool, Liverpool, UK

Multiscale computational homogenisation to predict the long-term durability of composite structures (2015)
Presentation / Conference Contribution
Ullah, Z., Kaczmarczyk, L., & Pearce, C. J. (2015, April). Multiscale computational homogenisation to predict the long-term durability of composite structures. Presented at 23rd UK Conference of the Association for Computational Mechanics in Engineering (ACME), University of Swansea, Swansea, UK

Perturbation-based stochastic multi-scale computational homogenization method for the determination of the effective properties of composite materials with random properties (2015)
Journal Article
Zhou, X.-Y., Gosling, P., Pearce, C., Kaczmarczyk, L., & Ullah, Z. (2016). Perturbation-based stochastic multi-scale computational homogenization method for the determination of the effective properties of composite materials with random properties. Computer Methods in Applied Mechanics and Engineering, 300, 84-105. https://doi.org/10.1016/j.cma.2015.10.020

Quantifying uncertainty in the overall elastic properties of composite materials arising from randomness in the material properties and geometry of composites at microscopic level is crucial in the stochastic analysis of composites. In this paper, a... Read More about Perturbation-based stochastic multi-scale computational homogenization method for the determination of the effective properties of composite materials with random properties.

Perturbation-based stochastic multi-scale computational homogenization method for woven textile composites (2015)
Journal Article
Zhou, X.-Y., Gosling, P. D., Pearce, C. J., Ullah, Z., & Kaczmarczyk, L. (2016). Perturbation-based stochastic multi-scale computational homogenization method for woven textile composites. International Journal of Solids and Structures, 80, 368-380. https://doi.org/10.1016/j.ijsolstr.2015.09.008

In this paper, a stochastic homogenization method that couples the state-of-the-art computational multi-scale homogenization method with the stochastic finite element method, is proposed to predict the statistics of the effective elastic properties o... Read More about Perturbation-based stochastic multi-scale computational homogenization method for woven textile composites.