SOLIDWORKS Simulation Premium
SOLIDWORKS Simulation Premium software bolsters the depth of Simulation Professional with additional capabilities, including a powerful set of tools for simulating nonlinear and dynamic response as well as composite materials.
No matter the material or use environment, SOLIDWORKS Simulation Premium will provide valuable insight to improve product reliability in the most cost effective manner.
SOLIDWORKS Simulation Premium includes three advanced studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamic. The linear dynamic study builds upon the frequency study to calculate the stresses due to forcing vibrations. This enables engineers to calculate the effects of dynamic loads, impact or shock loading, even earthquake simulations for linear elastic materials.
Non-linear analysis allows designers and engineers to analyse complex material behaviour, such as that of metals, rubbers, and plastics. This analysis also helps account for large deflections and sliding contact in the components.
Non-linear static studies assume static loads, and although the loads can be sequenced, the dynamic effects of varying loads are not taken into account. The complex material models in non-linear analysis allow for the calculation of permanent deformation and residual stresses due to excessive loads, as well as the prediction of springs and clip fasteners.
In non-linear dynamic studies, the effect of real-time varying loads are included in the calculation and results.In addition to solving non-linear static problems, non-linear dynamic studies can also solve impact issues. SOLIDWORKS Simulation Premium enables engineers to solve problems without simplification to determine complex real world behaviours.
More Information about SOLIDWORKS Simulation
Improve Time to Market
By virtually testing and refining your designs first, the costly testing and certification process is streamlined reducing your time-to-market.
Reduce Costs
Reduces materials cost. SOLIDWORKS Simulation enables design teams to safely remove unnecessary material.
Eliminate Hidden Costs
Predicts product performance, Factor of Safety (FOS), and fatigue capabilities early-on in the process
Performance
Evaluates the performance of multiple variables at a rapid pace
Streamline Development
Reduces time-to-market by quickly determining optimal design solutions.
Features |
SOLIDWORKS Simulation Standard | SOLIDWORKS Simulation Professional | SOLIDWORKS Simulation Premium |
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Ease of Use
SOLIDWORKS Simulation is fully embedded in SOLIDWORKS 3D CAD for ease of use and data integrity. Using the same user interface (UI) paradigms as SOLIDWORKS with toolbars, menus, and context-sensitive right-click menus, ensures rapid familiarization. Built-in tutorials and searchable online help aid learning and troubleshooting. |
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Design Data Reuse
SOLIDWORKS Simulation supports SOLIDWORKS materials and configurations for easy analysis of multiple loads and product configurations. |
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Static Studies
Solve part and assembly structural analysis problems for stress, strain, displacements, and Factors of Safety (FOS). Problems are limited to static loading, elastic linear materials, and small contact displacements. For the solution to be valid, the resulting deformed shape after loading must exhibit small displacements and rotations. Premium only: Static studies are extended to incorporate components built up by composites materials. Component setup includes ply orientation and sandwich definition. Results include ply failure index as well as stress and deflections. |
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Fatigue Studies
Estimate components fatigue life under high-cycle varying loads where the peak stress is below the material yield stress. Cumulative damage theory is used to predict locations and cycles to failure. |
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Motion Analysis
Use a time-based, rigid body kinematic and dynamic motion tool to calculate the velocities, accelerations, and movements of an assembly under operational loads. The motion analysis tool calculates component body and connection loads that can be imported into a Static Study. Professional and Premium only: Use an event-based rigid body kinematic and dynamic motion tool to calculate the velocities, accelerations, and movements of an assembly under operational loads where actions and movements are triggered by the location or movement of components. The motion analysis tool calculates component body and connection loads that can be imported into a Static Study. |
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Design Studies
A design study is used to perform wide-ranging “what if” analyses. In a design study, both the parameters of a design (model) and simulation setup (materials, loadings, and fixtures) can be varied to assess the impact of change on the model. |
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FEA Modelling
SOLIDWORKS Simulation includes solid, shell, and beam modeling using h- and p-adaptive element types with mesh control and failure diagnostics. A customizable material library is included with simulation data:
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Loads and Restraints
Predicts the plastic flow pattern through the cavity at the end of fill.
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Assembly Connectivity
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Results
Study results are dependent upon the type of study but are displayed as Contour, Iso-Surface, Surface, and Section plots. Quantity point and line distribution given by the probe tool. The Design Insight plot shows loaded material. FEA results can be compared to test data. Deformed shape results can be animated and the animation saved. Overlay Simulation results onto SOLIDWORKS graphics. SOLIDWORKS Simulation results can be communicated to non-SOLIDWORKS users via eDrawings®, a shareable 3D file format. |
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Help and Support
In-product tutorials, online help, and knowledge base. |
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Communication
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Thermal Analysis
Solve steady-state and transient part and assembly thermal problems for temperature, temperature gradient, and heat flux. With the Thermal Analysis completed, you can import temperature loads into a Static Study. |
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Frequency Studies
Frequency Studies determine a product’s natural modes of vibration which is important for products that experience vibration in their working environment. |
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Buckling Studies
A possible failure mode for long and slender components is by collapse at a load below material yield stress. The buckling study predicts the components buckling load factor. |
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Pressure Vessel Studies
Linearised stress, a key for safe pressure design, is calculated in the Pressure Vessel Study. |
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Topology Studies
Enables you to discover new minimal material design alternatives under linear elastic static loading while still meeting component stiffness requirements. |
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Linear Dynamic Studies
Builds upon the Frequency Study to calculate the stresses due to forcing vibrations and calculating the effects of dynamic loads, impact or shock loading, for linear elastic materials. Study types are:
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Non-Linear Analysis
Non-Linear Analysis lets you analyze complex material behavior, such as post-yield metals, rubbers, and plastics, as well as to account for large deflections and sliding contact-in components. Non-Linear Static Study assumes static loads with loads can be sequenced so that the dynamic effects of the varying load do not affect the study. The complex material models in Non-Linear Static Studies can be used to calculate permanent deformation and residual stresses due to excessive loads, as well as predicting performance for components, such as springs and clip fasteners. Non-Linear Dynamic Study accounts for the effect of real-time varying loads that are included in calculations and results. In addition to solving non-linear static problems, Non-Linear Dynamic Studies can also solve impact problems. |
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SOLIDWORKS Simulation Related Videos and Documents
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SOLIDWORKS Simulation 2018
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