M. Topuz Et Al. , "Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties," MATERIALS TODAY COMMUNICATIONS , vol.29, 2021
Topuz, M. Et Al. 2021. Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties. MATERIALS TODAY COMMUNICATIONS , vol.29 .
Topuz, M., DİKİCİ, B., GAVGALI, M., & Kaseem, M., (2021). Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties. MATERIALS TODAY COMMUNICATIONS , vol.29.
Topuz, Mehmet Et Al. "Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties," MATERIALS TODAY COMMUNICATIONS , vol.29, 2021
Topuz, Mehmet Et Al. "Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties." MATERIALS TODAY COMMUNICATIONS , vol.29, 2021
Topuz, M. Et Al. (2021) . "Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties." MATERIALS TODAY COMMUNICATIONS , vol.29.
@article{article, author={Mehmet Topuz Et Al. }, title={Processing of Ti/(HA+ZrO2) biocomposite and 50% porous hybrid scaffolds with low Young's modulus by powder metallurgy: Comparing of structural, mechanical, and corrosion properties}, journal={MATERIALS TODAY COMMUNICATIONS}, year=2021}