| Surface and thermal effects on vibration of embedded alumina nanobeams based on novel Timoshenko beam model B Amirian, R Hosseini-Ara, H Moosavi Applied Mathematics and Mechanics 35, 875-886, 2014 | 24 | 2014 |
| Thermal vibration analysis of carbon nanotubes embedded in two-parameter elastic foundation based on nonlocal Timoshenko's beam theory B Amirian, R Hosseini-Ara, H Moosavi Archives of Mechanics 64 (6), 581-602, 2013 | 20 | 2013 |
| Thermodynamically-consistent derivation and computation of twinning and fracture in brittle materials by means of phase-field approaches in the finite element method B Amirian, H Jafarzadeh, BE Abali, A Reali, JD Hogan International Journal of Solids and Structures 252, 111789, 2022 | 15 | 2022 |
| The mechanical response of a α2 (Ti3Al)+ γ (TiAl)-submicron grained Al2O3 cermet under dynamic compression: Modeling and experiment B Amirian, HY Li, JD Hogan Acta Materialia 181, 291-308, 2019 | 11 | 2019 |
| An experimental and numerical study of novel nano-grained (γ+ α2)-TiAl/Al2O3 cermets B Amirian, HY Li, JD Hogan Materials Science and Engineering: A 744, 570-580, 2019 | 11 | 2019 |
| Thermo‐Mechanical Vibration of Short Carbon Nanotubes Embedded in Pasternak Foundation Based on Nonlocal Elasticity Theory B Amirian, R Hosseini-Ara, H Moosavi Shock and Vibration 20 (4), 821-832, 2013 | 11 | 2013 |
| Phase-field approach to evolution and interaction of twins in single crystal magnesium B Amirian, H Jafarzadeh, BE Abali, A Reali, JD Hogan Computational Mechanics 70 (4), 803-818, 2022 | 10 | 2022 |
| The study of diffuse interface propagation of dynamic failure in advanced ceramics using the phase-field approach B Amirian, BE Abali, JD Hogan Computer Methods in Applied Mechanics and Engineering 405, 115862, 2023 | 5 | 2023 |
| The mechanical response of a α2 (Ti3Al)+ γ (TiAl)-Nanograined Al2O3 cermet under dynamic compression: modeling and experiment B Amirian, HY Li, JD Hogan Available at SSRN 3394562, 2019 | 5 | 2019 |
| A three-dimensional phase-field model for studying the orientation-dependent interface evolution in stress-induced martensitic phase transformation B Amirian, K Inal Computational Materials Science 241, 113045, 2024 | 1 | 2024 |
| A thermodynamically consistent machine learning-based finite element solver for phase-field approach B Amirian, K Inal Acta Materialia, 120169, 2024 | | 2024 |
| Physics-Based Modeling of Failure of Novel Light-Weight Materials: Applications to Computational Design of Materials B Amirian | | 2021 |
James David HoganDepartment of Mechanical Engineering, University of Alberta, Canada在 ualberta.ca 的电子邮件经过验证
