Fabrication of Bimetallic High-Strength Low-Alloy Steel/Si-Bronze Functionally Graded Materials Using Wire Arc Additive Manufacturing

IF 3.3 Q2 ENGINEERING, MANUFACTURING Journal of Manufacturing and Materials Processing Pub Date : 2023-07-31 DOI:10.3390/jmmp7040138

Marwan M. El-Husseiny, Abdelrahman A. Baraka, Omar Oraby, E. El-Danaf, H. Salem

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Abstract

In this paper, bimetallic functionally graded structures were fabricated using wire and arc additive manufacturing (WAAM). The bimetallic walls were built by depositing Si-Bronze and high-strength low-alloy (HSLA) steel, successively. The microstructural evolution of the built structures, especially within the fusion zone between the dissimilar alloys, was investigated in relation to their mechanical properties. The built bimetallic walls showed a high level of integrity. An overall interface length of 9 mm was investigated for microstructural evolution, elemental mapping and microhardness measurements along the building direction. Microhardness profiles showed a gradual transition in hardness passing through the diffusion zone with no evidence for intermetallic compounds. Failure of the tensile specimens occurred at the Si-Bronze region, as expected. Bending tests confirmed good ductility of the joint between the dissimilar alloys. Direct shear test results proved a shear strength comparable to that of HSLA steel. The obtained results confirm that it is appropriate to fabricate HSLA steel/Si-Bronze FGMs using WAAM technology.

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金属丝电弧增材制造低合金钢/硅青铜双金属功能梯度材料

本文采用金属丝和电弧增材制造技术（WAAM）制备了双金属功能梯度结构。采用硅青铜和高强度低合金（HSLA）钢先后沉积的方法制作了双金属墙体。研究了所构建结构的微观结构演变，特别是在不同合金之间的熔合区内，与它们的机械性能有关。建造的双金属墙显示出高度的完整性。研究了9mm的总界面长度沿构建方向的微观结构演变、元素图谱和显微硬度测量。显微硬度分布显示，通过扩散区的硬度逐渐转变，没有金属间化合物的证据。正如预期的那样，拉伸试样的失效发生在硅青铜区域。弯曲试验证实，异种合金之间的接头具有良好的延展性。直剪试验结果证明其剪切强度与HSLA钢相当。研究结果表明，采用WAAM技术制备HSLA钢/Si青铜FGM是合适的。

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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