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MxSim.Multiphy multiphysics simulation analysis software
MxSim.Multiphy multiphysics simulation analysis software
MxSim.Multiphy multiphysics simulation analysis software
MxSim.MultiphyMultiphysics simulation analysis software
Provide users with a simulation platform for multi-field collaboration and integrated solution. Relying on modular and standardized technology, it connects the MxSim series software such as structure, fluid, thermal, electromagnetic, and electrochemistry. It focuses on solving the problems of difficult interdisciplinary coupling, simulation instability, and low verification efficiency in scenarios such as automobile electric drive electromagnetic-thermal structure, power battery electrochemistry-thermal structure, energy and electricity thermal-fluid-solid, and mechanical equipment structure-thermal.
core module
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| MxSim.Emag medium and low frequency electromagnetic module | MxSim.HFEM high frequency electromagnetic module | MxSim.Echem universal electrochemistry module | MxSim.Echem universal electrochemistry module |
Core functions
1. MxSim.Emag medium and low frequency electromagnetic module: supports electromagnetic analysis such as electrostatic field, direct current, alternating current, transient electric field, static magnetic field, quasi-steady electromagnetic field, transient electromagnetic field, field-circuit coupling, etc. Mainly used for motor design and optimization, transformer and inductor simulation, magnetic device magnetic response and dynamic characteristics simulation, aviation electrostatic analysis, ship shielding analysis
2. MxSim.HFEM high-frequency electromagnetic module: supports electromagnetic wave propagation and scattering analysis, multi-frequency band and parametric solution, high-order finite element fast and high-precision solution, complex boundaries and excitation. Mainly used for communication antenna design, radar system simulation, electromagnetic compatibility analysis, waveguide device and cavity analysis, high-frequency heating simulation, and contact sensitivity analysis of connector electrical performance.
3. MxSim.Echem general electrochemistry module: supports electrochemical multi-field coupling solutions, electrode/electrolyte reaction kinetic modeling, ion migration and diffusion analysis, and battery-specific solutions. It is mainly used for power battery design and thermal safety analysis, electroplating, electrolysis and surface treatment, metal corrosion and cathodic protection, prediction of supercapacitor power density and energy efficiency, material mechanism research and new system verification.
4. MxSim.MultiPhy multi-field coupling module: supports comprehensive analysis of electromagnetic-thermal-structure, electrochemistry-thermal-structure, thermal-fluid-solid, structure-thermal, etc.
Product advantages
MxSim.Emag medium and low-frequency electromagnetic module: provides a full-link low-frequency electromagnetic field simulation solution from modeling to solution.
1. Integrate the self-developed underlying equation solver DSV to achieve rapid solution of underlying equations.
2. Complete coverage of medium and low frequency electromagnetic analysis conditions.
3. Multiple boundaries and load excitations support the modeling of complex physical phenomena.
4. Rich electromagnetic material system support capabilities.
5. Adaptive mesh refinement and moving boundaries.
6. Through adaptive encryption technology and low-order high-precision unit technology, fast calculation, low consumption, and high precision are achieved. MxSim.HFEM high-frequency electromagnetic module: a high-precision full-wave analysis platform for complex antennas and electromagnetic compatibility.
1. High-efficiency and high-precision solution based on high-order vector basis functions.
2. Flexible and convenient field-circuit coupling analysis capabilities.
3. Computational efficiency: parameterization + sweep frequency, broadband fast solver, simulation speed increased by 5–10 times.
4. Support stable and reliable convergence of multiple ports, complex boundaries, and periodic structures.
5. Flexible and scalable.
MxSim.Echem universal electrochemistry module: provides users with efficient battery development and anti-corrosion optimization solutions.
1. High-precision reaction modeling.
2. Strongly coupled solution architecture.
3. Rich electrochemical physical models.
1. Integrate the self-developed underlying equation solver DSV to achieve rapid solution of underlying equations.
2. Complete coverage of medium and low frequency electromagnetic analysis conditions.
3. Multiple boundaries and load excitations support the modeling of complex physical phenomena.
4. Rich electromagnetic material system support capabilities.
5. Adaptive mesh refinement and moving boundaries.
6. Through adaptive encryption technology and low-order high-precision unit technology, fast calculation, low consumption, and high precision are achieved. MxSim.HFEM high-frequency electromagnetic module: a high-precision full-wave analysis platform for complex antennas and electromagnetic compatibility.
1. High-efficiency and high-precision solution based on high-order vector basis functions.
2. Flexible and convenient field-circuit coupling analysis capabilities.
3. Computational efficiency: parameterization + sweep frequency, broadband fast solver, simulation speed increased by 5–10 times.
4. Support stable and reliable convergence of multiple ports, complex boundaries, and periodic structures.
5. Flexible and scalable.
MxSim.Echem universal electrochemistry module: provides users with efficient battery development and anti-corrosion optimization solutions.
1. High-precision reaction modeling.
2. Strongly coupled solution architecture.
3. Rich electrochemical physical models.
Application cases