In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition
Maraging steels are known for their exceptional strength derived from the martensite matrix and nano-precipitate strengthening. However, the trade-off to the high strength is often a loss of ductility and minimal strain hardening. Introducing metastable austenite to the matrix to activate transforma...
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sg-ntu-dr.10356-1809052024-11-04T04:47:10Z In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition Lek, Yung Zhen Gao, Shubo Shen, Xiaojun Jarlöv, Asker Cailloux, Thomas Zeng, Zhuohong Nai, Sharon Mui Ling Zhou, Kun School of Mechanical and Aerospace Engineering School of Electrical and Electronic Engineering Singapore Institute of Manufacturing Technology, A*STAR Singapore Centre for 3D Printing Engineering Directed energy deposition In-situ alloying Maraging steels are known for their exceptional strength derived from the martensite matrix and nano-precipitate strengthening. However, the trade-off to the high strength is often a loss of ductility and minimal strain hardening. Introducing metastable austenite to the matrix to activate transformation-induced plasticity (TRIP) is an effective approach to achieve high strength and ductility synergy. Existing methods to introduce TRIP into additively manufactured maraging steels are limited by the compositions of pre-alloyed powder or additional heat treatment steps. In-situ alloying via the laser directed energy deposition (L-DED) process allows flexibility in tailoring the alloying composition to achieve an austenite–martensite microstructure. Herein, we develop a TRIP–maraging steel by in-situ alloying of M789 with 316L (4–8 wt%) during the L-DED process. The addition of 316L facilitates austenite reversion in solution-treated maraging steel. As a result, the TRIP–maraging steel exhibits a 76 % increase in uniform elongation at the expense of a minimal sacrifice of strength. Furthermore, the corrosion resistance of the TRIP–maraging steel is enhanced. This work showcases a pathway to developing superior alloys by in-situ alloying via additive manufacturing. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) This research is supported by the National Research Foundation, Prime Minister’s Office, Singapore under its Medium-Sized Center funding scheme and A*STAR Structural and Metal Alloys Programme (SMAP): Work Package II with project No. A18B1b0061. 2024-11-04T04:47:10Z 2024-11-04T04:47:10Z 2024 Journal Article Lek, Y. Z., Gao, S., Shen, X., Jarlöv, A., Cailloux, T., Zeng, Z., Nai, S. M. L. & Zhou, K. (2024). In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition. Materials Science and Engineering: A, 911, 146898-. https://dx.doi.org/10.1016/j.msea.2024.146898 0921-5093 https://hdl.handle.net/10356/180905 10.1016/j.msea.2024.146898 2-s2.0-85198026480 911 146898 en A18B1b0061 Materials Science and Engineering: A © 2024 Published by Elsevier B.V. All rights reserved. |
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Engineering Directed energy deposition In-situ alloying |
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Engineering Directed energy deposition In-situ alloying Lek, Yung Zhen Gao, Shubo Shen, Xiaojun Jarlöv, Asker Cailloux, Thomas Zeng, Zhuohong Nai, Sharon Mui Ling Zhou, Kun In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| description |
Maraging steels are known for their exceptional strength derived from the martensite matrix and nano-precipitate strengthening. However, the trade-off to the high strength is often a loss of ductility and minimal strain hardening. Introducing metastable austenite to the matrix to activate transformation-induced plasticity (TRIP) is an effective approach to achieve high strength and ductility synergy. Existing methods to introduce TRIP into additively manufactured maraging steels are limited by the compositions of pre-alloyed powder or additional heat treatment steps. In-situ alloying via the laser directed energy deposition (L-DED) process allows flexibility in tailoring the alloying composition to achieve an austenite–martensite microstructure. Herein, we develop a TRIP–maraging steel by in-situ alloying of M789 with 316L (4–8 wt%) during the L-DED process. The addition of 316L facilitates austenite reversion in solution-treated maraging steel. As a result, the TRIP–maraging steel exhibits a 76 % increase in uniform elongation at the expense of a minimal sacrifice of strength. Furthermore, the corrosion resistance of the TRIP–maraging steel is enhanced. This work showcases a pathway to developing superior alloys by in-situ alloying via additive manufacturing. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Lek, Yung Zhen Gao, Shubo Shen, Xiaojun Jarlöv, Asker Cailloux, Thomas Zeng, Zhuohong Nai, Sharon Mui Ling Zhou, Kun |
| format |
Article |
| author |
Lek, Yung Zhen Gao, Shubo Shen, Xiaojun Jarlöv, Asker Cailloux, Thomas Zeng, Zhuohong Nai, Sharon Mui Ling Zhou, Kun |
| author_sort |
Lek, Yung Zhen |
| title |
In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| title_short |
In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| title_full |
In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| title_fullStr |
In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| title_full_unstemmed |
In-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| title_sort |
in-situ alloying of maraging steel with enhanced mechanical properties and corrosion resistance by laser directed energy deposition |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180905 |
| _version_ |
1816858951109574656 |