AutoFEM Frequency Analysis + ShipConstructor Integration - 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 provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.
AutoFEM Static Analysis provides the calculation of the stress state of the structures under the forces which are constant in time . To date probably this is the most requested task in the design . Using the module "Static analysis" an engineer can evaluate the allowable stresses in design which is developed, determine the most weaknesses in the design and make the necessary changes (optimize) the product.
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.