과제정보
This work was supported by the Fundamental Research Program of the Korea Institute of Materials Science (PNK9260, KIMS). This work was also supported by the Technology Innovation Program [grant number 20016092], Development of Ti-6Al-4V alloy plate with 100 mm thickness by rolling process satisfying aerospace material specification, funded by the Ministry of Trade, Industry & Energy (MOTIE, Korea).
참고문헌
- C. Cui, B. Hu, L. Zhao and S. Liu: Mater. Des., 32 (2011) 1684.
- S. Liu and Y. C. Shin: Mater. Des., 164 (2019) 107552.
- E. Uhlmann, R. Kersting, T. B. Klein, M. F. Cruz and A. V. Borille: Procedia CIRP, 35 (2015) 55.
- N. A. Waterman and P. Dickens: World Class Design to Manufacture, 1 (1994) 27.
- L. Parry, I. A. Ashcroft and R. D. Wildman: Addit. Manuf., 12 (2016) 1.
- R. K. Gupta, V. A. Kumar, C. Mathew and G. S. Rao: Mater. Sci. Eng. A, 662 (2016) 537.
- C. de Formanoir, A. Brulard, S. Vives, G. Martin, F. Prima, S. Michotte, E. Riviere, A. Dolimont and S. Godet: Mater. Res. Lett., 5 (2017) 201.
- A. V. S. R. Prasad, K. Ramji and G. L. Datta: Procedia Mater. Sci., 5 (2014) 2567.
- H. Park, Y. W. Kim, S. Lee, K. T. Kim, J.-H. Yu, J. G. Kim and J. M. Park: J. Powder Mater., 30 (2023) 140.
- T. Y. Kim, M. H. Kang, J. H. Kim, J. K. Hong, J. H. Yu and J. I. Lee: J. Powder Mater., 29 (2022) 99.
- J.-Y. Kim, J. Woo, Y. Sohn, J. H. Kim and K.-A. Lee: J. Powder Mater., 30 (2023) 146.
- C. Park, R. Hajra, S. Kim, S.-H. Lee and J. Kim: J. Mater. Res. Technol., 25 (2023) 172.
- C. Park, R. Hajra, N. Adomako, W. Choo, S. Yang, S.-J. Seo and J. Kim: Mater. Lett., 337 (2023) 133936.
- N. K. Adomako, J. J. Lewandowski, B. M. Arkhurst, H. Choi, H. J. Chang and J. H. Kim: Addit. Manuf., 59 (2022) 103174.
- Standard Guide for Directed Energy Deposition of Metals, (n.d.). https://www.astm.org/f3187-16.html (accessed January 9, 2024).
- H. Tang, M. Qian, N. Liu, X. Zhang, G. Yang and J. Wang: JOM, 67 (2015) 555.
- R. O'Leary, R. Setchi, P. Prickett, G. Hankins and N. Jones: An Investigation into the Recycling of Ti-6Al-4V Powder Used Within SLM to Improve Sustainability, (n.d.).
- L. C. Ardila, F. Garciandia, J. B. Gonzalez-Diaz, P. Alvarez, A. Echeverria, M. M. Petite, R. Deffley and J. Ochoa: Phys. Procedia, 56 (2014) 99.
- G. Jacob, C. U. Brown, M. A. Donmez and S. S. Watson, Effects of powder recycling on stainless steel powder and built material properties in metal powder bed fusion processes, NIST (2017).
- P. Nandwana, W. Peter, R. Dehoff, L. Lowe, M. Kirka, F. Medina and S. Babu: Metall. Mater. Trans. B, 47 (2015) 754.
- W. A. Grell, E. Solis-Ramos, E. Clark, E. Lucon, E. J. Garboczi, P. K. Predecki, Z. Loftus and M. Kumosa: Addit. Manuf., 17 (2017) 123.
- M. Peters, J. Hemptenmacher, J. Kumpfert and C. Leyens: Structure and Properties of Titanium and Titanium Alloys, in: Titanium and Titanium Alloys, John Wiley & Sons, Ltd, (2003) 1.
- M. Yan, M.S. Dargusch, T. Ebel and M. Qian: Acta Mater., 68 (2014) 196.