Elastic Residual Strain and Stress Measurements and Corresponding Part Deflections of 3D Additive Manufacturing Builds of IN625 AM-Bench Artifacts Using Neutron Diffraction, Synchrotron X-Ray Diffraction, and Contour Method

Thien Q. Phan; Maria Strantza; Michael R. Hill; Thomas H. Gnaupel-Herold; Jarred Heigel; Christopher R. D’Elia; Adrian T. DeWald; Bjorn Clausen; Darren C. Pagan; J. Y. Peter Ko; Donald W. Brown; Lyle E. Levine

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Elastic Residual Strain and Stress Measurements and Corresponding Part Deflections of 3D Additive Manufacturing Builds of IN625 AM-Bench Artifacts Using Neutron Diffraction, Synchrotron X-Ray Diffraction, and Contour Method

机译：使用中子衍射，同步加速器X射线衍射和轮廓法对IN625 AM基准工件进行3D增材制造的弹性残余应变和应力测量以及相应的零件变形

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One of the primary barriers for adoption of additive manufacturing (AM) has been the uncertainty in the performance of AM parts due to residual stresses/strains. The rapid heating and cooling rates from the thermal history of the laser melting process result in high residual stresses/strains that produce significant part distortion. Efforts to mitigate residual stresses using post-process heat treatments can significantly impact the microstructures of the AM part which may lead to further issues. Therefore, the ability to accurately predict the residual stresses in as-built AM parts is crucial, and rigorous benchmark measurements are needed to validate such predictions. To fill this need, the AM-Bench aims to provide high-fidelity residual stress and strain benchmark measurements in well-characterized AM bridge-shaped parts. The measurements reported here are part of the residual elastic strain benchmark challenge CHAL-AMB2018-01-RS. Residual strains and stresses in this work were measured using neutron diffraction, synchrotron X-ray diffraction, and the contour method. Part deflection measurements were performed using a coordinate measurement machine after the part was partially separated from the build plate. These independently measured results show a high degree of agreement between the different techniques.

机译：采用增材制造（AM）的主要障碍之一是由于残余应力/应变导致AM零件性能的不确定性。由于激光熔化过程的热历史而产生的快速加热和冷却速率会导致较高的残余应力/应变，从而产生明显的零件变形。使用后期热处理减轻残留应力的努力会严重影响AM零件的微观结构，这可能会导致进一步的问题。因此，准确预测所制造的AM零件中残余应力的能力至关重要，因此需要严格的基准测试来验证这种预测。为了满足这一需求，AM-Bench旨在在特征明确的AM桥形零件中提供高保真残余应力和应变基准测试。此处报告的测量结果是残余弹性应变基准测试CHAL-AMB2018-01-RS的一部分。使用中子衍射，同步加速器X射线衍射和轮廓法测量了这项工作中的残余应变和应力。在零件与构建板部分分离之后，使用坐标测量机执行零件变形测量。这些独立测量的结果显示了不同技术之间的高度一致性。

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《Integrating Materials and Manufacturing Innovation》 |2019年第3期|共17页
作者
Thien Q. Phan; Maria Strantza; Michael R. Hill; Thomas H. Gnaupel-Herold; Jarred Heigel; Christopher R. D’Elia; Adrian T. DeWald; Bjorn Clausen; Darren C. Pagan; J. Y. Peter Ko; Donald W. Brown; Lyle E. Levine;
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中图分类通信、信号理论;
关键词
Additive manufacturingResidual stressNeutron diffractionSynchrotron X-ray diffractionContour methodNickel-based superalloy;

机译：增材制造残余应力中子衍射同步辐射X射线衍射轮廓法镍基高温合金;

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专利

1. Diffraction Measurements of Residual Macrostress and Microstress Using X-Rays, Synchrotron and Neutrons [J] . Keisuke TANAKA, Yoshiaki AKINIWA JSME International Journal. Series C, Mechanical Systems, Machine Elements and Manufacturing . 2004,第3期

机译：使用X射线，同步加速器和中子的残余大应力和微应力的衍射测量
2. Diffraction Measurements of Residual Macrostress and Microstress Using X-Rays, Synchrotron and Neutrons [J] . Keisuke TANAKA, Yoshiaki AKINIWA JSME International Journal. Series C, Mechanical Systems, Machine Elements and Manufacturing . 2004,第3期

机译：使用X射线，同步加速器和中子的残余大应力和微应力的衍射测量
3. Residual stress mapping in Inconel 625 fabricated through additive manufacturing: Method for neutron diffraction measurements to validate thermomechanical model predictions [J] . Wang Zhuqing, Denlinger Erik, Michaleris Panagiotis, Materials & design . 2017,第jana期

机译：通过增材制造制造的Inconel 625中的残余应力映射：用于验证热机械模型预测的中子衍射测量方法
4. Measurement of Residual Elastic Strains in a Titanium Alloy Using High Energy Synchrotron X-Ray Diffraction [C] . A.M. Korsunsky, J. Liu, M. Golshan, SEM Annual Conference . 2006

机译：使用高能同步X射线衍射测量钛合金中残留弹性菌株
5. X-RAY DIFFRACTION MEASUREMENT OF RESIDUAL STRESS (STRAIN): ENERGY DISPERSIVE X-RAY RESIDUAL STRESS MEASUREMENT. [D] . ROSEMEIER, RONALD GEORGE. 1981

机译：残余应力（应力）的X射线衍射测量：能量色散X射线残余应力测量。
6. Residual stress measurements via neutron diffraction of additive manufactured stainless steel 17-4 PH [O] . Mohammad Masoomi, Nima Shamsaei, Robert A. Winholtz, 2017

机译：通过添加剂制造的不锈钢17-4 PH的中子衍射测量残余应力
7. Residual stress mapping in Inconel 625 fabricated through additive manufacturing: Method for neutron diffraction measurements to validate thermomechanical model predictions [O] . Zhuqing Wang, Erik Denlinger, Panagiotis Michaleris, 2017

机译：通过添加剂制造制造的Inconel 625中的残余应力映射：中子衍射测量方法以验证热机械模型预测

Elastic Residual Strain and Stress Measurements and Corresponding Part Deflections of 3D Additive Manufacturing Builds of IN625 AM-Bench Artifacts Using Neutron Diffraction, Synchrotron X-Ray Diffraction, and Contour Method

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