Research Assistant @ McGill University
Publications
Journal Papers
6. Abid, N., Pro, W., Barthelat, F., “Fracture mechanics of nacre-like materials using discrete-element models: Effects of microstructure, interfaces and randomness” Journal of the Mechanics and Physics of Solids 124 (2019): 350-365. [PDF]
5. Abid, N., Mirkhalaf, M., Barthelat, F., “Discrete-element modeling of nacre-like materials: effects of random microstructures on strain localization and mechanical performance” Journal of the Mechanics and Physics of Solids, 2018. 112: p385-402. [PDF]
3. Abid, N.H., Abu Al-Rub, R.K., Palazotto, A.N., “Micromechanical Finite Element Analysis of the Effects of Martensite Morphological Distribution on the Overall Mechanical Behavior of Dual Phase Steel” International Journal of Solid and Structures, 2017. 104-105: p. 8-24 [PDF]
2. Abid, N.H., Abu Al-Rub, R.K., Palazotto, A.N., 2015. Computational modeling of the effect of equiaxed heterogeneous microstructures on strength and ductility of dual phase steels. Computational Materials Science 103, 20-37. [PDF]
1. Abu Al-Rub RK., Abid NH., Ettehad M., Palazotto AN., "Microstructural Modeling of Dual Phase Steel Using a Higher-Order Gradient Plasticity-Damage Model", Applied Mechanics and Materials, Vol. 784, pp. 119-128,. 2015
4. Abid, N.H., Abu Al-Rub, R.K., Palazotto, A.N., “Microstructural Modeling of the Effects of Martensite Particle Size and Ferrite Grain Boundaries on the Overall Mechanical Behavior of Dual Phase Steel” ASME. Journal of Engineering Materials and Technology 2017; 139(4) [PDF]
2010 - present
2010 - present
7. Abid, N., Hannard, F., William Pro, J., & Barthelat, F. Exploring the fracture toughness of tessellated materials with the discrete-element method. Journal of Applied Mechanics, 2019, 86(11). [PDF]