Laser powder bed fusion (LPBF) has the ability to produce three-dimensional lightweight metal parts with complex shapes. Extensive investigations have been conducted to tackle build accuracy problems caused by shape complexity. For metal parts with stringent requirements, surface roughness, laser beam positioning error, and part location effects can all affect the shape accuracy of LPBF built products. This study develops a data-driven predictive approach as a promising solution for geometric accuracy improvement in LPBF processes. To address the shape complexity issue, a prescriptive modeling approach is adopted to minimize geometrical deviations of built products through compensating computer aided design models, as opposed to changing process parameters. It allows us to predict and control a wide range of shapes starting from a limited set of measurements on basic benchmark geometries. An error decomposition and compensation scheme is developed to decouple the influence from different error components and to reduce the shape deviations caused by part geometrical deviation, laser beam positioning error, and other location effects simultaneously via an integrated modeling and compensation framework. Experimentation and data collection are conducted to investigate error sources and to validate the developed modeling and accuracy control methods.
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January 2019
Research-Article
Prescriptive Data-Analytical Modeling of Laser Powder Bed Fusion Processes for Accuracy Improvement
He Luan,
He Luan
Epstein Department of Industrial and
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
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Marco Grasso,
Marco Grasso
Department of Mechanical Engineering,
Politecnico di Milano,
Milano 20156, Italy
Politecnico di Milano,
Milano 20156, Italy
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Bianca M. Colosimo,
Bianca M. Colosimo
Department of Mechanical Engineering,
Politecnico di Milano,
Milano 20156, Italy
Politecnico di Milano,
Milano 20156, Italy
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Qiang Huang
Qiang Huang
Epstein Department of Industrial and
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
e-mail: qiang.huang@usc.edu
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
e-mail: qiang.huang@usc.edu
Search for other works by this author on:
He Luan
Epstein Department of Industrial and
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
Marco Grasso
Department of Mechanical Engineering,
Politecnico di Milano,
Milano 20156, Italy
Politecnico di Milano,
Milano 20156, Italy
Bianca M. Colosimo
Department of Mechanical Engineering,
Politecnico di Milano,
Milano 20156, Italy
Politecnico di Milano,
Milano 20156, Italy
Qiang Huang
Epstein Department of Industrial and
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
e-mail: qiang.huang@usc.edu
Systems Engineering,
University of Southern California,
Los Angeles, CA 90089
e-mail: qiang.huang@usc.edu
Manuscript received March 20, 2018; final manuscript received October 1, 2018; published online November 8, 2018. Assoc. Editor: Sam Anand.
J. Manuf. Sci. Eng. Jan 2019, 141(1): 011008 (13 pages)
Published Online: November 8, 2018
Article history
Received:
March 20, 2018
Revised:
October 1, 2018
Citation
Luan, H., Grasso, M., Colosimo, B. M., and Huang, Q. (November 8, 2018). "Prescriptive Data-Analytical Modeling of Laser Powder Bed Fusion Processes for Accuracy Improvement." ASME. J. Manuf. Sci. Eng. January 2019; 141(1): 011008. https://doi.org/10.1115/1.4041709
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