A. Heidarzadeh Et Al. , "The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation," MATERIALS CHEMISTRY AND PHYSICS , vol.223, pp.9-15, 2019
Heidarzadeh, A. Et Al. 2019. The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation. MATERIALS CHEMISTRY AND PHYSICS , vol.223 , 9-15.
Heidarzadeh, A., Motalleb-nejad, P., VATANKHAH BARENJI, R., Khalili, V., & GÜLERYÜZ, G., (2019). The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation. MATERIALS CHEMISTRY AND PHYSICS , vol.223, 9-15.
Heidarzadeh, Akbar Et Al. "The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation," MATERIALS CHEMISTRY AND PHYSICS , vol.223, 9-15, 2019
Heidarzadeh, Akbar Et Al. "The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation." MATERIALS CHEMISTRY AND PHYSICS , vol.223, pp.9-15, 2019
Heidarzadeh, A. Et Al. (2019) . "The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation." MATERIALS CHEMISTRY AND PHYSICS , vol.223, pp.9-15.
@article{article, author={Akbar Heidarzadeh Et Al. }, title={The origin of the maximum hardness of the friction stir welded single-phase Cu-Zn plates: RSM, EBSD, and TEM investigation}, journal={MATERIALS CHEMISTRY AND PHYSICS}, year=2019, pages={9-15} }