Mohammad A. Omari, Ph.D.
Affiliations: | 2013 | Mechanical Engineering | New Mexico State University, Las Cruces, NM, United States |
Area:
Mechanical Engineering, Industrial Engineering, Aerospace Engineering, Materials Science EngineeringGoogle:
"Mohammad Omari"Parents
Sign in to add mentor| Igor Sevostianov | grad student | 2013 | New Mexico State | |
| (Evaluation of changes in microstructure and mechanical performance of metals via electrical resistivity measurements.) | ||||
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Omari MA, Almagableh A, Sevostianov I, et al. (2020) Modeling of the viscoelastic properties of thermoset vinyl ester nanocomposite using artificial neural network International Journal of Engineering Science. 150: 103242 |
| Almagableh A, Omari MA, Sevostianov I. (2019) Modeling of anisotropic elastic properties of multi-walled zigzag carbon nanotubes International Journal of Engineering Science. 144: 103127 |
| Almagableh A, Al-Oqla FM, Omari MA. (2017) Predicting the Effect of Nano-Structural Parameters on the Elastic Properties of Carbon Nanotube-Polymeric based Composites International Journal of Performability Engineering. 13: 73-86 |
| Omari MA, Balázs T, Sevostianov I. (2014) Evaluation of changes in plastic yield parameters of titanium CP-2 using electrical resistivity measurements International Journal of Fracture. 187: 179-186 |
| Omari MA, Sevostianov I. (2013) Estimation of changes in the mechanical properties of stainless steel subjected to fatigue loading via electrical resistance monitoring International Journal of Engineering Science. 65: 40-48 |
| Omari MA, Sevostianov I. (2013) Evaluation of the growth of dislocations density in fatigue loading process via electrical resistivity measurements International Journal of Fracture. 179: 229-235 |
| Yulianto I, Omari M, Sevostianov I. (2012) Evaluation of changes in dislocation density in TI-CP2 in the process of quasi-static loading using electrical resistance measurements International Journal of Fracture. 175: 73-78 |