Effects of deposition sequence on microstructural evolution in additively manufactured Cu-Cr-Nb alloy / superalloy bimetallic structures

IF 4.2 Q2 ENGINEERING, MANUFACTURING

Additive manufacturing letters Pub Date : 2023-07-01 DOI:10.1016/j.addlet.2023.100151

A.D. Iams , T.J. Lienert , D.A. Otazu , M. Ramoni

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Abstract

Although Cu-Cr-Nb alloys / superalloys bimetallic components for liquid rocket engine applications have been fabricated using additive manufacturing, a detailed understanding of their process-structure relation is currently lacking. To bridge this gap, GRCop-42 / Alloy 718 bimetallic structures were fabricated with two different deposition sequences, using powder feedstock with a laser-based directed energy deposition process. The deposition sequence resulted in significant variations in precipitate morphology, composition, and crystal structure within the GRCop-42, particularly at locations near the interface. When Alloy 718 was deposited first, dilution and convective mixing resulted in elevated Ni and Fe levels within the GRCop-42 deposit, which contributed to the formation of C14 (Cr, Ni, Fe)₂Nb Laves and α-Cr phases. The anticipated C15 Cr₂Nb precipitates were observed within the GRCop-42 material when the deposition sequence was reversed.

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沉积顺序对添加Cu-Cr-Nb合金/高温合金双金属结构显微组织演变的影响

虽然已经使用增材制造技术制造了用于液体火箭发动机的Cu-Cr-Nb合金/高温合金双金属部件，但目前还缺乏对其工艺结构关系的详细了解。为了弥补这一差距，采用两种不同的沉积顺序，使用粉末原料和激光定向能沉积工艺制备了GRCop-42 / Alloy 718双金属结构。沉积顺序导致了GRCop-42的析出相形态、组成和晶体结构的显著变化，特别是在界面附近的位置。当合金718先沉积时，稀释和对流混合导致GRCop-42沉积层中Ni和Fe含量升高，形成C14 (Cr, Ni, Fe)2Nb Laves和α-Cr相。当沉积顺序相反时，在GRCop-42材料中观察到预期的C15 Cr2Nb沉淀。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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