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WCCM 2018 - MS# 405 Advanced Computational Methods and Theories for Predicting Material Behaviors at Various Length Scales

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Dear Colleagues:

We cordially invite you to submit your abstract to our mini-symposium (MS# 405) for he 13th World Congress in Computational Mechanics to be held in New York City, USA on July 22-27, 2018.

Our mini-symposium is entitled “Advanced Computational Methods and Theories for Predicting Material Behaviors at Various Length Scales”, and a description can be found at: http://www.wccm2018.org/MS_405

We would be honored, if you could contribute to our mini-symposium. Your abstract can be submitted at: http://www.wccm2018.org/abstract-submission (Submission deadline is December 31, 2017).

More information on the Congress can be found at the Congress website:  http://www.wccm2018.org/

We look forward to meeting you at the conference.

Sincerely yours,

Jeong-Hoon Song (University of Colorado, Boulder)
Caglar Oskay (Vanderbilt University, Nashville)
Shaofan Li (University of California, Berkeley)
Timon Rabczuk (Bauhaus University Weimar, Weimar, Germany)

MS# 405 Advanced Computational Methods and Theories for Predicting Material Behaviors at Various Length Scales

The purpose of this mini-symposium is to recognize recent achievements in computational methods and mechanics theories for predicting behaviors of advanced new materials at various length scales. This mini-symposium is open to contributions on new computational technology and mechanics theories that can enhance the current capability of computational predictions.

Under this theme, topics of interest include, but are not limited to:
- New computational methods and/or mechanics theories for predicting material deterioration processes at a single or across multiple scales;
- New computational methods and/or mechanics theories for predicting material behaviors under multiphysics loading conditions through coupled fields analysis;
- Novel computational mechanics theories that can provide new paradigm for bridging temporal and/or physical length scales;
- Quantification of computational errors and uncertainty propagation in computational multiscale and/or multiphysics analysis;
- New verification and validation frameworks for coupled scales and/or fields analysis with experiments;
- Simulation-based inverse characterization of material damage criteria or parameters at various length scales.

Due to the interdisciplinary nature of this research field, contributions from theoretical and applied mechanics, computational physics, applied mathematics, materials science, and nanotechnology are also welcome.

Keywords: computational materials science; multiscale analysis; multiphysics analysis

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