The effects of TiC particle on microstructure and mechanical properties of Inconel 718 fabricated by selective arc melting

IF 6.1 1区 工程技术 Q1 ENGINEERING, MANUFACTURING Journal of Manufacturing Processes Pub Date : 2024-09-30 DOI:10.1016/j.jmapro.2024.09.050
Weiran Xie , Xiaodong Yang , Haiou Yang , Xiaoming Duan
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Abstract

Adding titanium carbide reinforcement particles into Inconel 718 matrix is considered to be an effective way of further improving the mechanical properties of Inconel 718 components fabricated by selective laser melting (SLM). However, SLM-fabricated TiC/Inconel 718 composite components typically exhibit the pore defects caused by poor wettability between the matrix and the TiC particles, which attributed to the low heat input of laser during deposition. A powder bed based additive manufacturing method using arc plasma as heat source, named selective arc melting (SAM), was developed in previous study by the authors. Significantly higher heat input from the arc heat source contributes to inhibiting the generation of pore defects in TiC/Inconel 718 composite components during SAM. In this paper, thin-walled parts of Inconel 718 and TiC/Inconel 718 composites were first fabricated by the SAM method. Then, the deposition geometry, microstructure, tensile properties and hardness of as-fabricated Inconel 718 and TiC/Inconel 718 composites components were systematically studied and compared. Results showed that a large number of dispersed carbides and fine equiaxed grains were observed in the TiC/Inconel 718 composites. Most of the added TiC particles were melted and the Inconel 718 matrix bonded well to the carbide precipitation phases. The TiC/Inconel 718 composite part exhibited better surface quality, tensile strength, ductility and hardness than that of Inconel 718. The combined effects of precipitation strengthening and fine grain strengthening were the main reasons for the better mechanical performance of the TiC/Inconel 718 composite part.
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TiC 粒子对选择性电弧熔炼法制造的 Inconel 718 的微观结构和机械性能的影响
在 Inconel 718 基体中添加碳化钛增强颗粒被认为是进一步改善通过选择性激光熔化(SLM)制造的 Inconel 718 组件机械性能的有效方法。然而,SLM 制造的 TiC/Inconel 718 复合材料部件通常会出现孔隙缺陷,原因是基体与 TiC 颗粒之间的润湿性较差,这归因于沉积过程中激光输入的热量较低。作者在之前的研究中开发了一种基于粉末床的增材制造方法,使用电弧等离子体作为热源,命名为选择性电弧熔化(SAM)。在 SAM 过程中,电弧热源输入的热量明显较高,这有助于抑制 TiC/Inconel 718 复合材料部件中孔隙缺陷的产生。本文首先采用 SAM 方法制造了 Inconel 718 和 TiC/Inconel 718 复合材料的薄壁部件。然后,系统研究并比较了制备的 Inconel 718 和 TiC/Inconel 718 复合材料部件的沉积几何形状、微观结构、拉伸性能和硬度。结果表明,在 TiC/Inconel 718 复合材料中观察到大量分散的碳化物和细小的等轴晶粒。大部分添加的 TiC 颗粒被熔化,Inconel 718 基体与碳化物析出相很好地结合在一起。TiC/Inconel 718 复合材料部件的表面质量、抗拉强度、延展性和硬度均优于 Inconel 718。析出强化和细晶粒强化的共同作用是 TiC/Inconel 718 复合材料部件具有更好机械性能的主要原因。
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来源期刊
Journal of Manufacturing Processes
Journal of Manufacturing Processes ENGINEERING, MANUFACTURING-
CiteScore
10.20
自引率
11.30%
发文量
833
审稿时长
50 days
期刊介绍: The aim of the Journal of Manufacturing Processes (JMP) is to exchange current and future directions of manufacturing processes research, development and implementation, and to publish archival scholarly literature with a view to advancing state-of-the-art manufacturing processes and encouraging innovation for developing new and efficient processes. The journal will also publish from other research communities for rapid communication of innovative new concepts. Special-topic issues on emerging technologies and invited papers will also be published.
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