Birsen, D. Et Al. 2023. Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method. MATERIALS CHEMISTRY AND PHYSICS , vol.302 , 127743.

Birsen, D., Tütük, İ., Acar, S., Karabeyoğlu, S. S., Özer, G., & Güler, K. A., (2023). Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method. MATERIALS CHEMISTRY AND PHYSICS , vol.302, 127743.

Birsen, Dilara Et Al. "Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method," MATERIALS CHEMISTRY AND PHYSICS , vol.302, 127743, 2023

Birsen, Dilara Et Al. "Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method." MATERIALS CHEMISTRY AND PHYSICS , vol.302, pp.127743, 2023

Birsen, D. Et Al. (2023) . "Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method." MATERIALS CHEMISTRY AND PHYSICS , vol.302, p.127743.

@article{article, author={Dilara Birsen Et Al. }, title={Microstructure and wear characteristics of hybrid reinforced (ex-situ SiC–in-situ Mg2Si) Al matrix composites produced by vacuum infiltration method}, journal={MATERIALS CHEMISTRY AND PHYSICS}, year=2023, pages={127743} }