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Process-Level Modeling and Simulation for HP's Multi Jet Fusion 3D Printing Technology
Hokeun Kim, Yan Zhao, Lihua Zhao

Citation
Hokeun Kim, Yan Zhao, Lihua Zhao. "Process-Level Modeling and Simulation for HP's Multi Jet Fusion 3D Printing Technology". the 1st International Workshop on Cyber-Physical Production Systems (CPPS), 12, April, 2016.

Abstract
The 3D printing technology is expected to revolutionize part manufacturing by enabling rapid and inexpensive production at a small scale. HP's Multi Jet Fusion 3D printing technology is developed to provide new levels of part quality in a fast and inexpensive way compared to existing 3D printing technologies. The printed part quality is determined by the interplay of the printing device and materials used for printing. Thus, it is essential to have a proper cyber-physical system model for the printing system for process-level simulation of the HP's Multi Jet Fusion technology. In this paper, we propose an approach for the process-level modeling and simulation of HP's Multi Jet Fusion technology. Our approach can be used to carry out simulation of the 3D printing system, to provide guidance for optimization and development of the printing process and exploration of materials. Preliminary results potentially indicate that the simulation of our proposed model is significantly faster than the finite element method, which is a widely used technique for 3D printing simulation.

Electronic downloads

Citation formats  
  • HTML
    Hokeun Kim, Yan Zhao, Lihua Zhao. <a
    href="http://chess.eecs.berkeley.edu/pubs/1171.html"
    >Process-Level Modeling and Simulation for HP's Multi Jet
    Fusion 3D Printing Technology</a>, the 1st
    International Workshop on Cyber-Physical Production Systems
    (CPPS), 12, April, 2016.
  • Plain text
    Hokeun Kim, Yan Zhao, Lihua Zhao. "Process-Level
    Modeling and Simulation for HP's Multi Jet Fusion 3D
    Printing Technology". the 1st International Workshop on
    Cyber-Physical Production Systems (CPPS), 12, April, 2016.
  • BibTeX
    @inproceedings{KimZhaoZhao16_ProcessLevelModelingSimulationForHPsMultiJetFusion,
        author = {Hokeun Kim and Yan Zhao and Lihua Zhao},
        title = {Process-Level Modeling and Simulation for HP's
                  Multi Jet Fusion 3D Printing Technology},
        booktitle = {the 1st International Workshop on Cyber-Physical
                  Production Systems (CPPS)},
        day = {12},
        month = {April},
        year = {2016},
        abstract = {The 3D printing technology is expected to
                  revolutionize part manufacturing by enabling rapid
                  and inexpensive production at a small scale. HP's
                  Multi Jet Fusion 3D printing technology is
                  developed to provide new levels of part quality in
                  a fast and inexpensive way compared to existing 3D
                  printing technologies. The printed part quality is
                  determined by the interplay of the printing device
                  and materials used for printing. Thus, it is
                  essential to have a proper cyber-physical system
                  model for the printing system for process-level
                  simulation of the HP's Multi Jet Fusion
                  technology. In this paper, we propose an approach
                  for the process-level modeling and simulation of
                  HP's Multi Jet Fusion technology. Our approach can
                  be used to carry out simulation of the 3D printing
                  system, to provide guidance for optimization and
                  development of the printing process and
                  exploration of materials. Preliminary results
                  potentially indicate that the simulation of our
                  proposed model is significantly faster than the
                  finite element method, which is a widely used
                  technique for 3D printing simulation.},
        URL = {http://chess.eecs.berkeley.edu/pubs/1171.html}
    }
    

Posted by Hokeun Kim on 29 Mar 2016.
Groups: ptolemy
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