Youssef Hammi
Faculty

yhammi@cavs.msstate.edu

Office: CAVS 2164
Phone: (662) 325-5452

 

Research Interest:
Mechanical Engineering; Developing and evaluating mathematical based models for powder metallurgy component design and performance prediction, developing and implementing continuum mechanics models into different finite element codes for various metal alloys and their corresponding material processing histories; Developing and evaluating mathematical based models for powder metallurgy component design and performance prediction; Developing and implementing continuum mechanics models into different finite element codes for various metal alloys and their corresponding material processing histories.


Selected PublicationsTotal Publications by Youssef Hammi:  52 
Paliwal, B., Hammi, Y., Moser, R. D., & Horstemeyer, M. (2017). A Three-invariant Cap-plasticity Damage Model for Cementitious Materials. International Journal of Solids and Structures. Elsevier. 108, 186-202. DOI:10.1016/j.ijsolstr.2016.12.015. [Abstract] [Document] [Document Site]

Liu, Y., Whittington, W. R., & Hammi, Y. (2017). Application of a Microstructure-based ISV Plasticity Damage Model to Study Penetration Mechanics of Metals and Validation through Penetration Study of Aluminum. Modelling and Simulation in Engineering. 6189168, 1-10.

Huddleston, B. D., Dickel, D. E., Horstemeyer, M., Williams, N., Danielson, K., & Hammi, Y. (2016). Damage Progression and Fragmentation in Atomistic, Single Crystal Copper at High Strain Rates. Solid State Phenomena. Trans Tech Publications. 258, 49-52. DOI:10.4028/www.scientific.net/SSP.258.49. [Abstract] [Document Site]

Liu, Y., & Hammi, Y. (2016). Comparison of Johnson-Cook Model and An ISV Plasticity Damage Model in Penetration Simulation. Proceedings of ASME 2016 International Mechanical Engineering Congress & Exposition. Phoenix, AZ.

Hammi, Y., Stone, T.W., Paliwal, B., Allison, P. G., & Horstemeyer, M. (2016). Smooth Yield Surface Constitutive Modeling for Granular Materials. Journal of Engineering Materials and Technology. American Society of Mechanical Engineers. 139(1), 011010. DOI:10.1115/1.4034987. [Abstract] [Document] [Document Site]