2024年7月21-26日にカナダバンクーバーで開催されます第16回世界計算力学会議（the 16th World Congress on Computational Mechanics (WCCM 2024)）にて,領域代表がピッツバーグ大学のAlbert To 教授らとともに,シンポジウム Modeling and Simulation for Additive Manufacturingをオーガナイズいたします。そのAbstract提出締め切りは、2024年1月15日と迫っております。多数の方の奮っての申し込みならびに関係の方へのご連絡をいただけますと幸いです。

2024年7月21-26日にカナダバンクーバーで開催されます第16回世界計算力学会議（the 16th World Congress on Computational Mechanics (WCCM 2024)）にて,領域代表がピッツバーグ大学のAlbert To 教授らとともに,シンポジウム Modeling and Simulation for Additive Manufacturingをオーガナイズいたします。

そのAbstract提出締め切りは、2024年1月15日と迫っております。

多数の方の奮っての申し込みならびに関係の方へのご連絡をいただけますと幸いです。

Dear all

It is with great pleasure to invite you to submit an abstract of your presentation to the 16th World Congress on Computational Mechanics (WCCM 2024) and 4th Pan American Congress on Computational Mechanics (PANACM 2024) to be held in Vancouver, Canada on July 21-26, 2024.

Our Minisymposium “Modeling and Simulation for Additive Manufacturing” has been a part of USNCCM/WCCM since 2017, and it has been well received and attended. It will be exciting to learn about the latest progress and advancement from your research activities in additive manufacturing.

If it fits your schedule, we hope that you can submit an abstract of your presentation to Minisymposium 1101 Modeling and Simulation for Additive Manufacturing:

https://www.wccm2024.org/abstract-submission

A detailed description of the minisymposium is attached below. Abstract deadline is January 15, 2024.

More information on the Congress can be found at the Congress website: https://www.wccm2024.org/

Sincerely yours,

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Modeling and Simulation for Additive Manufacturing

Various additive manufacturing (AM) techniques including 4D printing have been developed to manufacture complex-shaped components with well-controlled precision. Sophisticated AM techniques often require systematic modeling and simulation efforts during the design stage and for the purpose of part qualification/certification. The objective of this minisymposium is to provide a platform to discuss recently developed modeling and simulation techniques for AM, including experimental calibration and validation efforts for the process. The topics include (but are not limited to):

・Simulation of the manufacturing process to predict heat transfer, residual stress/distortion, melt pool dynamics, surface topology, composition, and microstructure including defects at multiscale length and time scales

・Adaptive discretization strategies, efficient numerical solution schemes, and model order reduction approaches allowing for highly efficient simulations at the part-scaleThermo-mechanical material modeling

・Data-driven approaches for simulation acceleration

・Combined simulation and in-situ monitoring for rapid build qualification

・Effects of microstructure and defects on mechanical properties

・Feedback control for minimizing defects and residual stress in as-built structures

・AM-oriented topology optimization

・Analysis of lattice and cellular structures

Modeling and simulation of functionally graded materials, tissue engineering scaffolds, bioinspired composites, bi-material joints, etc.

Computational modeling and simulation for any AM processes (e.g. laser power bed fusion, electron beam melting, form deposition modeling, stereolithography, binder jetting) and materials (e.g. metals, plastics, ceramics and their composites as well as biological materials) are welcome.

Organizers:

Thorsten Bartel, Technical University of Dortmund, Germany

Michele Chiumenti, UPC Barcelona, Spain

Yuichiro Koizumi, Osaka University, Japan

Stefan Kollmannsberger, Technical University of Munich, Germany

Andreas Lundback, Lulea University of Technology, Sweden

Dan Moser, Sandia National Laboratories

Theron Rodgers, Sandia National Laboratories

Christoph Meier, Technical University of Munich, Germany

Mike Stender, Sandia National Laboratories

Ashley Spear, University of Utah, USA

Albert To, University of Pittsburgh, USA

Gregory Wagner, Northwestern University, USA

Yaoyao Fiona Zhao, McGill University, Canada