Session Code: AL

Minisymposium Title: Particle-based Methods for Modeling Materials

Minisymposium Description: This mini-symposium focuses on particle-based methods for modeling materials including soft matters, energy materials and bio-inspired materials. It will include talks on theory, algorithms and diverse applications of moving least square (MLS), smoothed particle hydrodynamics (SPH), radial basis functions (RBF), dissipative particle dynamics (DPD), and other particle-based methods. Particle-based methods have advantages for modeling physical phenomena involving large-deformation of materials, moving interfaces in multiphase complex fluids, advection-dominated transport, etc. This mini-symposium will bring together researchers working on particle-based methods to share insights and to discuss progress of key challenges in this field and promote discussion of similarities between methods.

Minisymposium Organizer: Wenxiao Pan, Nathaniel Trask

Stewart Silling, Sandia National Laboratories, USA-Fundamental Studies of Dynamic Fracture with Multiscale Peridynamics
Nathaniel Trask-A Monolithic Compatible Meshless Discretization for Simulating Electrophoretic Suspensions
Varun Shankar-A Radial Basis Function Method for Meshfree Transport on Surfaces
Richard B. Lehoucq, Sandia National Laboratories, USA- Integral Approximations to Classical Diffusion and Smoothed Particle Hydrodynamics
Xiangyu H-Smoothed Particle Hydrodynamics: Consistence, Convergence and Transport-Velocity Formulation
Wenxiao Pan-Simulating Transport in Microfluidics and Porous Electrodes by Implicit Smoothed Particle Hydrodynamics
Zhen Li-Practices of Coarse-Graining Based on the Mori-Zwanzig Formalism
Yu-Hang Tang-Energy-Conserving Dissipative Particle Dynamics Modeling of Thermo-Responsive Polymers As Drug Delivery Vehicles

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