Service
Finite Element and Phase Field Simulation
By using finite element multiphysics simulation and phase field evolution model, we can quantitatively analyze the thermal, electrical, mechanical, diffusion, phase transition, interfacial reaction and damage evolution processes of the research object, providing reliable simulation support for structural optimization, process design, failure mechanism analysis and performance prediction.
Overview
Our services include thermal conductivity analysis, thermo-mechanical coupling analysis, electro-thermal coupling analysis, stress/warpage analysis, diffusion and reaction process simulation, crack propagation, porosity evolution, grain growth, phase separation, and interface migration.
We can flexibly design modeling solutions to meet various needs, such as thesis research, project applications, research support, and corporate R&D.
Available Methods
Supports customized simulations of thermal, stress, electric, diffusion, and multiphysics coupling problems.
Supports a one-stop service from geometric modeling, material parameter setting, boundary condition design, numerical solution to result analysis and graphical output.
Deliverables
It can output cloud maps, graphs, 2D/3D model diagrams, and simulation reports.
Upon request, model files and data can also be provided to facilitate subsequent paper writing, project presentations, and ongoing research.