A level-set based continuous scanning path optimization method for reducing residual stress and deformation in metal additive manufacturing

Thermal residual stress and distortion inherent in metal melting and solidification process is the main cause of build failure in metal additive manufacturing (AM) techniques such as laser powder bed fusion and directed energy deposition. To ensure build quality against residual stress/distortion, i...

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Published inComputer methods in applied mechanics and engineering Vol. 360; p. 112719
Main Authors Chen, Qian, Liu, Jikai, Liang, Xuan, To, Albert C.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.03.2020
Elsevier BV
Subjects
Adaptive level set adjustment
Additive manufacturing
Computer simulation
Concurrent design
Continuous scanning path
Distortion
Level set method
Melting
Optimization
Powder beds
Residual stress
Residual stress mitigation
Scanning
Sensitivity analysis
Solidification
Strain analysis
Thermal simulation
Adaptive level set adjustment
Residual stress mitigation
Continuous scanning path
Level set method
Concurrent design
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Abstract Thermal residual stress and distortion inherent in metal melting and solidification process is the main cause of build failure in metal additive manufacturing (AM) techniques such as laser powder bed fusion and directed energy deposition. To ensure build quality against residual stress/distortion, it is desirable to tailor the scanning path for a given geometry that needs to be built. Since the local deformation introduced by the moving heat source is anisotropic due to non-uniform heat transfer and mechanical constraints, the scanning path can affect residual stress within a part significantly. Aiming at thermal residual stress/distortion mitigation, this paper presents a novel level set-based scanning path optimization method. The method is developed to enable layer-wise continuous scanning path optimization for geometrically well-defined parts. To make the optimization efficient, a fast process simulation method called the inherent strain method is employed to simulate the thermal residual strain. Full sensitivity analysis for the formulated compliance- and stress-minimization problems is provided, where a novel strategy called the adaptive level set adjustment (ALSA) is proposed to remedy the deficiency of ignoring the non-implementable sensitivity terms. The effectiveness of the proposed continuous scanning path optimization method and ALSA strategy has been proved by a few numerical examples. Finally, the concurrent design scenario for simultaneous scanning path and structural optimization is investigated to demonstrate the further residual stress reduction.
AbstractList Thermal residual stress and distortion inherent in metal melting and solidification process is the main cause of build failure in metal additive manufacturing (AM) techniques such as laser powder bed fusion and directed energy deposition. To ensure build quality against residual stress/distortion, it is desirable to tailor the scanning path for a given geometry that needs to be built. Since the local deformation introduced by the moving heat source is anisotropic due to non-uniform heat transfer and mechanical constraints, the scanning path can affect residual stress within a part significantly. Aiming at thermal residual stress/distortion mitigation, this paper presents a novel level set-based scanning path optimization method. The method is developed to enable layer-wise continuous scanning path optimization for geometrically well-defined parts. To make the optimization efficient, a fast process simulation method called the inherent strain method is employed to simulate the thermal residual strain. Full sensitivity analysis for the formulated compliance- and stress-minimization problems is provided, where a novel strategy called the adaptive level set adjustment (ALSA) is proposed to remedy the deficiency of ignoring the non-implementable sensitivity terms. The effectiveness of the proposed continuous scanning path optimization method and ALSA strategy has been proved by a few numerical examples. Finally, the concurrent design scenario for simultaneous scanning path and structural optimization is investigated to demonstrate the further residual stress reduction.
ArticleNumber 112719
Author Liu, Jikai
To, Albert C.
Liang, Xuan
Chen, Qian
Author_xml – sequence: 1
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  surname: Chen
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  givenname: Jikai
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  fullname: Liu, Jikai
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  givenname: Albert C.
  orcidid: 0000-0002-5441-2735
  surname: To
  fullname: To, Albert C.
  email: albertto@pitt.edu
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Keywords Adaptive level set adjustment
Residual stress mitigation
Continuous scanning path
Level set method
Concurrent design
Language English
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SSID ssj0000812
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Snippet Thermal residual stress and distortion inherent in metal melting and solidification process is the main cause of build failure in metal additive manufacturing...
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StartPage 112719
SubjectTerms Adaptive level set adjustment
Additive manufacturing
Computer simulation
Concurrent design
Continuous scanning path
Distortion
Level set method
Melting
Optimization
Powder beds
Residual stress
Residual stress mitigation
Scanning
Sensitivity analysis
Solidification
Strain analysis
Thermal simulation
Title A level-set based continuous scanning path optimization method for reducing residual stress and deformation in metal additive manufacturing
URI https://dx.doi.org/10.1016/j.cma.2019.112719
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