Atıf Formatları
An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

İ. Simsek And D. Ozyurek, "An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment," Powder Metallurgy , vol.60, pp.384-392, 2017

Simsek, İ. And Ozyurek, D. 2017. An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment. Powder Metallurgy , vol.60 , 384-392.

Simsek, İ., & Ozyurek, D., (2017). An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment. Powder Metallurgy , vol.60, 384-392.

Simsek, İJLAL, And D. Ozyurek. "An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment," Powder Metallurgy , vol.60, 384-392, 2017

Simsek, İJLAL And Ozyurek, D.. "An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment." Powder Metallurgy , vol.60, pp.384-392, 2017

Simsek, İ. And Ozyurek, D. (2017) . "An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment." Powder Metallurgy , vol.60, pp.384-392.

@article{article, author={İJLAL ŞİMŞEK And author={D. Ozyurek}, title={An investigation of the effect of high-energy milling time of Ti6Al4V biomaterial on the wear performance in the simulated body fluid environment}, journal={Powder Metallurgy}, year=2017, pages={384-392} }