Strengthening and embrittlement mechanisms in laser-welded additively manufactured Inconel 718 superalloy

IF 2.4 4区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Welding in the World Pub Date : 2024-11-30 DOI:10.1007/s40194-024-01897-0

Atef Hamada, Sumit Ghosh, Timo Rautio, Matias Jaskari, Walaa Abd-Elaziem, Antti Järvenpää

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Abstract

Although laser-welded additively manufactured Inconel 718 joints find numerous high-temperature industrial applications, their strengthening and embrittlement mechanisms remain underexplored. To bridge this gap, we herein prepared such joints by the laser welding of the as-built material (built-LW), laser welding of double-aging heat-treated as-built material (DAT-LW), and double-aging heat treatment of laser-welded as-built material (LW-DAT). The microstructures of the joint fusion zones (FZs) were examined using scanning electron microscopy (electron backscatter diffraction and secondary electron imaging), while nanoscale features were probed by transmission electron microscopy, and mechanical properties were evaluated using microindentation hardness (H_IT) measurements and tensile tests. The FZs of the built-LW and DAT-LW joints contained no strengthening precipitates, such as the Laves phase and γ′ and γ″ nanoparticles. In stark contrast, the FZ of the LW-DAT joint contained spherical nanoparticles of the γ′ and γ″ phases responsible for precipitation hardening. The DAT-LW joint displayed base metal (BM) strengthening and FZ softening (H_IT = 6.47 and 3.6 GPa, respectively), whereas the LW-DAT joint demonstrated BM and FZ strengthening (H_IT = 6.2 and 6.5 GPa, respectively). The built-LW joint exhibited the lowest ultimate tensile strength (UTS) of 833 MPa, primarily because of the absence of strengthening precipitates. The DAT-LW joint, despite experiencing FZ softening, exhibited a higher UTS of 1086 MPa and a limited elongation of 2%, while the LW-DAT joint featured the highest UTS of 1440 MPa, primarily because of the enhancement of nanosized γ′ and γ″ strengthening phases facilitated by postwelding double-aging heat treatment.

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激光焊接增材制造Inconel 718高温合金的强化和脆化机理

尽管激光焊接增材制造的Inconel 718接头在高温工业中得到了广泛应用，但其强化和脆化机制仍未得到充分研究。为了弥补这一空白，本文通过激光焊接建筑材料（built-LW）、激光焊接双时效热处理建筑材料（DAT-LW）和激光焊接双时效热处理建筑材料（LW-DAT）制备了这种接头。采用扫描电子显微镜（电子背散射衍射和二次电子成像）检测了接头熔合区（FZs）的微观组织，采用透射电子显微镜检测了纳米级特征，并通过微压痕硬度（HIT）测量和拉伸测试评估了力学性能。built-LW和DAT-LW接头的fz中不含Laves相、γ′和γ″纳米颗粒等强化相。与此形成鲜明对比的是，LW-DAT接头的FZ区含有γ′和γ″相的球形纳米颗粒，负责沉淀硬化。DAT-LW接头表现为母材（BM）强化和FZ软化（HIT分别为6.47和3.6 GPa），而LW-DAT接头表现为母材（BM）和FZ强化（HIT分别为6.2和6.5 GPa）。结合lw接头的极限抗拉强度最低，为833 MPa，主要原因是没有强化相。DAT-LW接头虽然经历了FZ软化，但其最高的UTS为1086 MPa，延伸率为2%，而LW-DAT接头的最高UTS为1440 MPa，这主要是由于焊后双时效热处理促进了纳米级γ′和γ″强化相的增强。

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来源期刊

Welding in the World METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

4.20

自引率

14.30%

发文量

181

审稿时长

6-12 weeks

期刊介绍： The journal Welding in the World publishes authoritative papers on every aspect of materials joining, including welding, brazing, soldering, cutting, thermal spraying and allied joining and fabrication techniques.