10/10/2023 0 Comments Meshfree methodsProbabilistic finite element method for acoustic-structure interaction Mixed finite element method based on multiple-field variational principle Modeling of microstructural evolution and local instability (such as wrinkling formation) in polycrystalline materialsĬomputational damage mechanics and strain localizationĬomputational methods for rubber-like incompressible materialsĪrbitrary Lagrangian Eulerian method for large deformation and contact problems Mesoscopic modeling of grain growth and grain boundary migrationĪdaptive multiscale meshfree method for solving Schrödinger equation in quantum mechanics Wavelet Galerkin method in multiscale homogenization of heterogeneous materials Mathematical analysis of Galerkin and collocation meshfree methodsĬomputational methods development for modeling of material manufacturing processes such as metal forming, stamping, and extrusion Image based multiscale computational mechanics for skeletal musclesĪccelerated Reproducing Kernel Particle Method for continuum, plates, shells, composites, large deformation, and contact problems Multiscale and reduced order modeling of molecular systems with applications to DNA modeling Reduced order method for inelastic materials and materials with defects Reduced order methods for biological systems Thermodynamically consistent machine-learned material models for path-dependent materials Physics-Informed manifold learning with deep autoencoders for nonlinear materials Physics constrained data-driven computing with applications to biological materials and digital twins More specifically, he investigates:įinite Element and Meshfree Methods for nonlinear mechanicsĬomputational methods for simulation of fragment-impact processes Chen's research interests are in computational solid mechanics and multiscale materials modeling.
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