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AutoFEM Analysis - AutoFEM Analysis is a system of finite-element analysis. The main feature of the system is its deep integration with AutoCAD. By using AutoFEM Analysis an user of AutoCAD gets possibility solve the problem of finite-element modelling of various physical phenomena: •Static analysis (calculations on the strength of structures); •Calculation of natural frequencies of structures; •Calculation of critical load (the stability of the system); •Thermal calculations and other tasks.
AutoFEM Buckling Analysis - Buckling Analysis examines the geometric stability of models under primarily axial load. It helps avoid failure due to buckling which refers to sudden large displacements and can be catastrophic if it occurs in the normal use of most products. Buckling analysis provides the lowest buckling load which is of interest and is usually used in such applications as automotive frame design, column design, infrastructure design, safety factor determination, transmission tower design, vehicle skin design and others.
AutoFEM Frequency Analysis - Frequency Analysis determines a part's natural frequencies and the associated mode shapes. It can determine if a part resonates at the frequency of an attached, power-driven device, such as a motor. Resonance in structures must typically be avoided or damped. The typical applications include, aerospace structure design, bridge and overpass architecture, construction equipment design, musical instrument study, robotic system analysis, rotating machinery and turbine design, vibrating conveyor optimization and others.
AutoFEM Static Analysis - Structural analysis capabilities enable engineers to perform static stress analyses of parts and assemblies under various loading conditions. Static studies calculate displacements, reaction forces, strains, stresses, and factor of safety distribution. Static analysis can help you avoid failure due to high stresses. Various structural loads and restraints can be specified including force, pressure, gravity, rotational load, bearing force, torque, prescribed displacement, temperature, etc.
AutoFEM Thermal Analysis - Capabilities for simulating thermal effects include steady-state and transient heat transfer analysis. Thermal studies calculate temperatures, temperature gradients, and heat flow based on heat generation, conduction, convection, and radiation conditions. Thermal analysis can help you avoid undesirable thermal conditions like overheating and melting.