通过晶体塑性模拟和中子衍射实验测量激光粉末床熔融快速成型哈斯特洛伊-X 的残余应力

Amirhosein Mozafari, Ali Bonakdar, Joe Kelleher, Hamidreza Abdolvand
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引用次数: 0

摘要

激光粉末床熔融增材制造(LPBF-AM)技术能够制造出近似网状的金属部件,但制造过程中采用的集中输入热量会导致产生显著的内部残余应力。这些残余应力可能会导致相当大的问题,如变形、在制造过程中产生裂纹以及在使用过程中过早失效。在这项研究中,对镍基超合金 Hastelloy-X 进行了中子衍射实验,以评估作为 LPBF-AM 核心工艺参数函数的坯件试样表面下方和附近的残余应力状态。此外,还使用晶体塑性方法确定衍射弹性常数,以便更好地估算纹理试样的残余应力。结果表明,沿扫描方向存在约 660 兆帕的巨大拉伸残余应力,而表面以下存在压缩残余应力,两者相互抵消。结果表明,内部和表面残余应力随着激光比能量的增加而增加。讨论了使用各种衍射峰值来确定残余应力的问题,结果表明,虽然趋势没有变化,但测量到的应力大小却各不相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Residual Stress Measurement of Laser Powder Bed Fusion Additively Manufactured Hastelloy-X Through Crystal Plasticity Simulations and Neutron Diffraction Experiments

Residual Stress Measurement of Laser Powder Bed Fusion Additively Manufactured Hastelloy-X Through Crystal Plasticity Simulations and Neutron Diffraction Experiments

The laser powder bed fusion additive manufacturing (LPBF-AM) technique enables the production of near-net-shaped metal components, but the concentrated heat input employed during manufacturing leads to the development of significant internal residual stresses. These residual stresses may cause considerable issues such as distortion, crack initiation during fabrication, and premature failure during service. In this study, neutron diffraction experiments were performed on a nickel-based superalloy, Hastelloy-X, to evaluate the state of residual stresses below and near the surface of as-built specimens as a function of LPBF-AM core process parameters. In addition, a crystal plasticity method was used to determine the diffraction elastic constants to provide a better estimation of residual stresses for textured specimens. The results indicate large tensile residual stresses of about 660 MPa along the scanning direction, counterbalanced by compressive ones below the surface. It is shown that internal and surface residual stresses increase with the laser specific energy. The use of various diffraction peaks for determining residual stresses is discussed and it is shown that while trends do not change, the magnitudes of measured stresses vary.

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