Başlık: Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method

F. Mozafari Et Al. , "Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method," FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187, 2021

Mozafari, F. Et Al. 2021. Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method. FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187 .

Mozafari, F., Thamburaja, P., Moslemi, N., & Srinivasa, A., (2021). Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method. FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187.

Mozafari, FARZİN Et Al. "Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method," FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187, 2021

Mozafari, FARZİN Et Al. "Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method." FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187, 2021

Mozafari, F. Et Al. (2021) . "Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method." FINITE ELEMENTS IN ANALYSIS AND DESIGN , vol.187.

@article{article, author={FARZİN MOZAFARİ Et Al. }, title={Finite-element simulation of multi-axial fatigue loading in metals based on a novel experimentally-validated microplastic hysteresis-tracking method}, journal={FINITE ELEMENTS IN ANALYSIS AND DESIGN}, year=2021}

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