A. Topcu Et Al. , "Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach," Turkish Journal of Electromechanics and Energy , vol.6, no.3, pp.123-130, 2021
Topcu, A. Et Al. 2021. Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach. Turkish Journal of Electromechanics and Energy , vol.6, no.3 , 123-130.
Topcu, A., Yalçın, Ö. F., Öztürk, B., & Cora, Ö. N., (2021). Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach. Turkish Journal of Electromechanics and Energy , vol.6, no.3, 123-130.
Topcu, Alparslan Et Al. "Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach," Turkish Journal of Electromechanics and Energy , vol.6, no.3, 123-130, 2021
Topcu, Alparslan Et Al. "Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach." Turkish Journal of Electromechanics and Energy , vol.6, no.3, pp.123-130, 2021
Topcu, A. Et Al. (2021) . "Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach." Turkish Journal of Electromechanics and Energy , vol.6, no.3, pp.123-130.
@article{article, author={Alparslan Topcu Et Al. }, title={Thermal expansion, porosity, and microhardness properties of solid oxide fuel cell metallic interconnects manufactured by powder metallurgy approach}, journal={Turkish Journal of Electromechanics and Energy}, year=2021, pages={123-130} }