T. VAROL Et Al. , "Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders," Materials Chemistry and Physics , vol.281, 2022
VAROL, T. Et Al. 2022. Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders. Materials Chemistry and Physics , vol.281 .
VAROL, T., GÜLER, O., AKÇAY, S. B., & Çuvalcı, O., (2022). Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders. Materials Chemistry and Physics , vol.281.
VAROL, TEMEL Et Al. "Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders," Materials Chemistry and Physics , vol.281, 2022
VAROL, TEMEL Et Al. "Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders." Materials Chemistry and Physics , vol.281, 2022
VAROL, T. Et Al. (2022) . "Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders." Materials Chemistry and Physics , vol.281.
@article{article, author={TEMEL VAROL Et Al. }, title={Enhancement of electrical and thermal conductivity of low-cost novel Cu–Ag alloys prepared by hot-pressing and electroless plating from recycled electrolytic copper powders}, journal={Materials Chemistry and Physics}, year=2022}