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Symposium FA
3D Printing and Beyond: State-of-the-art and New Paradigms for Additive Manufacturing Technologies

Convener:
Tassilo MORITZ, IKTS Fraunhofer, Germany
 
Members:
Vamsi K. BALLA, CSIR-CGCRI, Kolkata, India
Christophe CHAPUT, 3DCeram, France
Marco DOMINGOS, University of Manchester, UK
Dongdong GU, Nanjing University of Aeronautics and Astronautics, China
John W. HALLORAN, University of Michigan, Ann Arbor, USA
Soshu KIRIHARA, Osaka University, Japan
Yong Lin KONG, University of Utah, USA
Christian LEINENBACH, EMPA, Switzerland
Ming LEU, Missouri University of Science and Technology, USA
Gideon N. LEVY, Additively.com / TTA, Switzerland
Xiaochun LI, University of California at Los Angeles, USA
Fue Wen LIOU, Missouri University of Science and Technology, USA
Tobias SCHAEDLER, HRL Laboratories, USA
Martin SCHAEFER, Siemens, Germany
Manfred SCHMID, Inspire AG, Switzerland
Dileep SINGH, Argonne National Laboratory, USA
Christopher M. SPADACCINI, LLNL, USA
Albert TARANCON, ICREA-Catalonia Institute for Energy Research-IREC, Spain
Nahum TRAVITZKY, University of Erlangen, Germany
Lorenzo VALDEVIT, University of California at Irvine, USA
Michael ZAEH, Technical University of Munich, Germany
Lijuan ZHANG, National Innovation Inst. of Additive Manufacturing, China
 
Patrick ANDERSON / Ruth CARDINAELS, Eindhoven University of Technology, Netherlands
Chang-Jun BAE, Korea Institute of Materials Science, South Korea
David BOURELL, University of Texas at Austin, USA
Christophe CHAPUT, 3DCeram, France
Matthew DICKERSON, Air Force Research Laboratory, USA
Carlos DONATE-BUENDIA / Bilal GÖKCE, University of Wuppertal, Germany
Tassilo MORITZ, IKTS Fraunhofer, Germany
Friedrich RAETHER / Holger FRIEDRICH, Fraunhofer ISC, Germany
Giulia SCALET, Universiìty of Pavia, Italy
Timothy F. SCOTT, Monash University, Australia
Matteo SEITA, Nanyang Technical University, Singapore
André R. STUDART, ETH Zurich, Switzerland
Albert TARANCON, ICREA-Catalonia Institute for Energy Research-IREC, Spain
Lorenzo VALDEVIT, University of California at Irvine, USA
Christopher WILLIAMS, Virginia Tech, USA
 
3D Printing (3DP) or additive manufacturing (AM) of advanced materials has changed the manufacturing platform during the past three decades. The idea of direct digital printing from a computer aided design file started with polymeric materials for touch and feel purposes. Now 3DP-based technologies are utilized in all sectors of product design and manufacturing from toys to aerospace to defence to biomedical to automotive, just to name a few. However, as the 3DP technologies are maturing, challenges related to use of different materials and manufacturing reliable parts are still active research fields. Moreover, in 4D printing novel adaptive and active functions are integrated in AM constructs by the use of an increasing palette of stimuli responsive materials that add further spatial/temporal paradigms to additive manufacturing thus opening new areas to research and application that were never done before.

This symposium aims at presenting timely research in additive manufacturing of advanced materials related to ceramics, metals, polymers and composites towards traditional as well as emerging applications including challenges related to design and fabrication of multi-materials structures.
Session Topics

FA-1 Additive manufacturing of ceramics and composites

  • Emerging additive manufacturing technologies for ceramics and composites
  • Laser based additive manufacturing of ceramics and composites
  • Extrusion-based additive manufacturing of ceramics and composites
  • Additive manufacturing of ceramics and composites using binder jetting
  • Surface modification using additive manufacturing of ceramics and composites
  • Predictive theoretical approaches and multiscale modelling and simulation of materials and processes

FA-2 Additive manufacturing of polymeric, metallic and multi-material structures

  • Emerging additive manufacturing technologies for polymeric, metallic and multi-material structures
  • Challenges and critical issues related to large polymeric structures via additive manufacturing
  • Topology optimized metallic structures via additive manufacturing
  • Machine learning and additive manufacturing of polymeric and metallic materials
  • Bimetallic and multi-material structures via additive manufacturing
  • Fatigue performance of additively manufactured parts
  • Powder processing and alloy design for additive manufacturing
  • Multiscale modelling and simulation of processes, structural evolution, residual stresses etc.

FA-3 4D printing

Embodying smartness in AM constructs
  • Polymers
  • Metals
  • Ceramics
  • Multimaterial systems

FA-4 Applications of additive manufacturing technologies

  • 3D printing and space
  • 3D printing of electronic components
  • 3D printing and energy systems
  • 3D printing of biomedical devices
  • Biofabrication and bio-printing
  • Novel application of 3D printing

FA-5 / FQ-8 3D Bioprinting of Soft Tissues and Organs

(Joint Session with the Focused Session FQ-8)

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