lsdyna流固耦合分析 磨料射流？ 100

Prepare CAD models: Prepare CAD models for solid parts, water and abrasive particles. The CAD models should accurately represent the geometry and surface roughness of the solid parts and abrasive particles. Mesh generation: Generate meshes for solid parts, water and abrasive particles using appropriate meshing software. Use a fine mesh for solid parts and abrasive particles to capture the small-scale features and surface roughness. Use a coarser mesh for water to reduce computational time. Define materials: Define material properties for solid parts and abrasive particles. Use appropriate constitutive models for each material to accurately simulate their mechanical behavior. For water, define its density and viscosity. Define boundary conditions: Define boundary conditions for solid parts and water. Specify the initial conditions for fluid and solid particles. Define contact and interaction: Define contact and interaction between solid parts, water, and abrasive particles. Use the appropriate contact algorithm to accurately simulate contact and interaction between these entities. Define loads: Define the loads acting on the system, such as external forces or pressure loads. Define analysis parameters: Define the analysis parameters, such as time step, element type, and integration method. Run the analysis: Run the FEM-SPH-DEM coupling analysis in LS-DYNA. Monitor the convergence of the solution and adjust the analysis parameters as necessary to obtain accurate results. Post-processing: Analyze the simulation results to understand the system behavior and make design decisions. It is important to note that FEM-SPH-DEM coupling analysis is computationally intensive and requires significant computational resources. Therefore, you may need to use high-performance computing resources to run the analysis in a reasonable amount of time.