![]() ![]() Learn how to use the user interface in COMSOL Multiphysics in this 8-part, self-guided course. Time-dependent adaptive meshing automatically resolves sharp diffusion fronts in two-phase flow simulations, bringing faster and more accurate simulations.Īutomatic Remeshing makes more extreme deformation states possible where a simulation with moving mesh is used. How to Navigate the COMSOL Multiphysics User Interface. Virtual Geometry tools allow for modification of CAD models without changing the underlying surface curvature and enable very efficient meshing. Report Generator creates HTML reports for models of varying degrees of detail, from brief to complete.Ĭompressible High-Mach Number Flow for designing nozzles, pipe networks, and valves, and for modeling aerodynamic phenomena. LiveLink for SolidWorks allows SolidWorksĮnvironment and work synchronously with COMSOL Multiphysics.įast multiphysics assembly brings faster and more memory efficient computations on virtually any type of computer platform, from laptop to cluster. LiveLink for SpaceClaim brings the fusion of direct modeling and multiphysics simulation in a tightly integrated environment. LiveLink for AutoCAD makes COMSOL Multiphysics simulations in 3D available for AutoCAD users. Geomechanics Module enables multiphysics modeling in geotechnical applications such as tunnels.Įlectrodeposition Module brings the power of COMSOL to electrochemical processes for chrome plating. Microfluidics Module brings easy-to-use tools for the study of microfluidic devices and rarefied gas flows. With this release, COMSOL continues to deliver on its promise to supply the science and engineering markets with the state-of-the-art simulation products for an expanding set of applications. Version 4.2 empowers current users to do more with their simulation environments, while new industries will now be able to leverage the innovation of multiphysics simulation. ![]() Aufl., 2005.COMSOL Multiphysics 4.2 represents a significant expansion of the software’s applications, features, and functionality. Partielle Differentialgleichungen und numerische Methoden. Society for Industrial and Applied Mathematics, 2. The Finite Element Method for Elliptic Problems. The Mathematical Theory of Finite Element Methods. Freezing Rotating Waves in Damped Wave Equationsĭamped cubic-quintic complex Ginzburg-Landau equation Freezing Traveling Waves in Damped Wave EquationsĨ. Further coherent structures in Reaction Diffusion Systemsįreezing Relative Equilibria in Equivariant Second-Order Evolution Equations (with Comsol Multiphysics 5.1 and 5.2) 7. Spinning 3-soliton (rotating multisoliton)Ħ. Spinning 2-soliton (rotating multisoliton) Traveling oscillating 2-front (traveling oscillating multifront) Oscillating pulse and traveling oscillating front Oscillating 2-pulse (oscillating multipulse) Traveling 2-front (collision, colliding fronts) ![]() Traveling 2-front (traveling multifront, repelling fronts) In this video we introduce the COMSOL Multiphysics software package as a powerful software for modeling and simulation of multi-physics problems. Freezing Multistructures (Multifronts, Multipulses and Multisolitons) and Wave Interactions in Reaction Diffusion Systems Freezing Waves with Several Symmetries in Reaction Diffusion Systemsĥ. Spinning soliton, dissipative soliton, rotating solitonĤ. Freezing Rotating Waves in Reaction Diffusion Systems Freezing Oscillating Waves in Reaction Diffusion EquationsĬubic-quintic complex Ginzburg-Landau equationģ. Freezing Traveling Waves in Reaction Diffusion EquationsĢ. Freezing traveling waves with Comsol Multiphysics: The Nagumo equationįreezing Relative Equilibria in Equivariant First-Order Evolution Equations (with Comsol Multiphysics 5.1 and 5.2) 1.8.3 Numerical approximation of rotating waves via freezing methodįor the implementation we suggest the following tutorials ![]()
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