Recommended PC for structural analysis (FEM) software "Simcenter 3D"
Recommended PC for structural analysis (FEM) software "Simcenter 3D"
Simcenter 3D is an integrated CAE platform provided by Siemens Digital Industries Software, capable of performing advanced multiphysics analyses such as structural, vibration, thermal, acoustic, motion, and electromagnetic field analyses within a single environment. ■ Integrated Platform It operates on Siemens NX CAD, allowing for a consistent environment for CAD and analysis (CAE), integrating everything from model preparation and mesh generation to simulation execution and visualization. ■ Main Analysis Areas Supported - Structural Analysis (Linear and Nonlinear) Static stress, buckling, creep, contact, etc. - Vibration and Eigenvalue Analysis Mode analysis, frequency response, random response, fatigue evaluation, etc. - Thermal Analysis Conduction, convection, radiation, steady-state and transient thermal distribution analysis. - Acoustic Analysis Sound pressure, noise evaluation, structural-acoustic coupling (Vibro-Acoustic). - Multibody Dynamics (MBD) Mechanism analysis, joints, dynamic load calculations. Hardware Configuration for Comfortable Operation of Simcenter 3D: Workstation.
basic information
Recommended model for Simcenter 3D users: 4U rack-mounted GPU server with EPYC 9365 and NVIDIA GPU.
Price range
Delivery Time
Applications/Examples of results
Main Applications ■ Structural Analysis Evaluation of stress and strain (static and dynamic) Prediction of buckling and failure Mechanical analysis of composite materials and plates (shell structures) Stress concentration evaluation of bolted joints and adhesive joints ■ Vibration and Acoustic Analysis Modal analysis (eigenvalues and eigenmodes) Frequency response analysis, random vibration Structural-acoustic coupled analysis (Vibro-Acoustic) Noise prediction, sound pressure distribution, NVH (Noise, Vibration, Harshness) ■ Thermal Analysis Steady-state and transient heat conduction Thermal expansion, thermal stress Thermal-structural coupled analysis (deformation evaluation due to temperature changes) ■ Mechanism Analysis Motion of mechanisms, joint and joint operation Acquisition of dynamic loads and linkage to structural response Motion analysis of actuators and link mechanisms ■ Electromagnetic Field Analysis (Low-Frequency EM) Magnetic flux distribution of motors, torque estimation Induction heating, eddy current loss analysis Magnetic field-structural coupling (deformation due to magnetic force) ■ Multiphysics Analysis (Coupled Simulation) Structural-thermal coupling (thermal stress, welding deformation) Vibration-acoustic coupling (acoustic noise) Thermal-mechanism coupling (changes in operational accuracy due to heat) ■ Optimization Analysis (Design Exploration) Topology optimization Parametric studies Optimal solution exploration in design space through collaboration with HEEDS
