Additive manufacturing of copper alloy and its application in Munroe effects

Xuejia Guo; Shengye Huang; Ping Song; Yiming Li; Junhao Liu; Meihong Guo

doi:10.1117/12.2580011

6 November 2020 Additive manufacturing of copper alloy and its application in Munroe effects

Xuejia Guo, Shengye Huang, Ping Song, Yiming Li, Junhao Liu, Meihong Guo

Proceedings Volume 11562, AOPC 2020: Advanced Laser Technology and Application; 115620X (2020) https://doi.org/10.1117/12.2580011
Event: Applied Optics and Photonics China (AOPC 2020), 2020, Beijing, China

Abstract

Copper based alloy is widely used to manufacture shaped charge liner. Limited by conventional manufacturing technology, complex liners are hard to produce. While the additive manufacturing (AM) is capable to produce parts of almost any geometry and intricacy. In this paper, the CuSn10 bronze shaped charge liner was manufactured by AM technology and the penetration performance of the liner was analyzed. Experimental results show that the liner made by AM technology could be applied under high stress-strain conditions, the penetration depth of CuSn10 liner is 18.9 % larger than that of traditional copper liner.

Citation Download Citation

Xuejia Guo, Shengye Huang, Ping Song, Yiming Li, Junhao Liu, and Meihong Guo "Additive manufacturing of copper alloy and its application in Munroe effects", Proc. SPIE 11562, AOPC 2020: Advanced Laser Technology and Application, 115620X (6 November 2020); https://doi.org/10.1117/12.2580011

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