A. K. Yildiz Et Al. , "A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process," Journal of Additive Manufacturing Technologies , vol.1, no.2, pp.1-5, 2021
Yildiz, A. K. Et Al. 2021. A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process. Journal of Additive Manufacturing Technologies , vol.1, no.2 , 1-5.
Yildiz, A. K., Mollamahmutoğlu, M., Doğan, A., & Yılmaz, O., (2021). A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process. Journal of Additive Manufacturing Technologies , vol.1, no.2, 1-5.
Yildiz, Ayşe Et Al. "A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process," Journal of Additive Manufacturing Technologies , vol.1, no.2, 1-5, 2021
Yildiz, Ayşe K. Et Al. "A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process." Journal of Additive Manufacturing Technologies , vol.1, no.2, pp.1-5, 2021
Yildiz, A. K. Et Al. (2021) . "A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process." Journal of Additive Manufacturing Technologies , vol.1, no.2, pp.1-5.
@article{article, author={Ayşe Kübra Yildiz Et Al. }, title={A numerical investigation of the effect of support thickness and void ratio on thermal behavior and possible martensite decomposition in laser powder-bed fusion process}, journal={Journal of Additive Manufacturing Technologies}, year=2021, pages={1-5} }