Study on Corrosion Properties of Additive Manufactured 316L Stainless Steel and Alloy 625 in Seawater |
Jung, Geun-Su
(Materials and Coating Research, Samsung Heavy Industries)
Park, Yong-Ha (Materials and Coating Research, Samsung Heavy Industries) Kim, Dae-Jung (InssTek, Inc.) Lim, Chae-Seon (Materials and Coating Research, Samsung Heavy Industries) |
1 | D. Herzong, V. Seyda, E. Wycisk, and C. Emmelmannm, Acta Mater., 117, 15 (2016). |
2 | B. A. Szost, S. Terzi, F. Martina, D. Boisselier, A. Prytuliak, T. Pirling, M. Hofmann, and D. J. Jarvis, Mater. Design, 89, 5 (2016). |
3 | S. Das, D. Bourell, and S. Babu, MRS Bull., 41, 10 (2016). DOI |
4 | I. Moltk, Maritime guide to 3D print, http://greenship.org (2016). |
5 | ASTM G48, Standard test methods for pitting and crevice corrosion resistance of stainless steels and related alloys by use of ferric chloride solution (2015). |
6 | J. C. Benedyk, Additive manufacturing of aluminum alloys, http://www. Lightmetalage.com (2018). |
7 | A. J. Sedriks, Corrosion of Stainless Steels, 2nd ed., p. 208, John Wiley & Sons, New York (1996). |