348 Modeling Methods for Complex Systems with Multiple Scales

Sheldon Wang, Midwestern State University

Albert Luo, Southern Illinois University, Edwardsville

The purpose of this symposium is to collect research results related to chaotic behaviors of nonlinear systems in computational science and engineering and to disseminate potential applications of tools in complex system modeling and computational mechanics communities. With the recent development of Immersed Finite Element Method, Extended Finite Element Method, and other modeling strategies, researchers are routinely handling very complicated interactive systems with multiple scales and physical phenomena. However, as we are dealing with complicated nonlinear systems (perhaps not complex yet) with different temporal and spatial scales, we recognize the possibility of having to deal with chaos and related predictability issues. This proposed symposium will provide researchers and educators in theoretical and applied mechanics communities a platform to share results and ideas.

Keywords: materials systems, integrated computational materials engineering

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