With SolidWorks® Simulation Professional, you can accurately simulate real-world operating conditions, reducing the time and costs associated with building and testing prototypes
Fully integrated with SolidWorks CAD software, SolidWorks Simulation Professional helps ensure that your designs can be accurately and cost-efficiently manufactured by finding design errors on-screen–instead of on the production floor
Assembly Simulation
 |
Study the interactions of assembly
components on-screen, before incurring the costs of physical
prototypes. Simulate static or dynamic loads to evaluate your
design’s performance under stress, strain, and displacement. |
| |
|
|
| Back to Top |
|
Mechanism Simulation
 |
Apply a wide variety of physics-based
models to simulate real-world operating conditions for your design.
Check for colliding parts. Output numerical and graphic data of the
results, as well as animations of your tests. |
| |
|
|
| Back to Top |
|
Simulate Welded Structures
 |
Ensure your welded structures perform at
peak operating conditions. Apply pressure, forces, and bearing
loads. Then use visualization tools like section plots, ISO
clipping, and animation to review the response |
| |
|
|
| Back to Top |
|
 |
Save the time and cost of prototyping
while creating safer, more durable products. Predict structural
failure thresholds due to yielding. |
| |
|
|
| Back to Top |
|
Compare and Optimize Alternatives
 |
Determine the best design option by
comparing strengths, life, cost, and weight. Perform all comparisons
and design modifications within the SolidWorks environment. |
| |
|
|
| Back to Top |
|
Simulate Natural Frequencies
 |
Predict and control your products natural
modes of vibration to avoid potentially damaging resonant
frequencies. Study the effects of both loads and material choices on
your products performance. |
| |
|
|
| Back to Top |
|
Predict Buckling or Collapse
 |
Virtually apply forces, pressure, gravity,
and centrifugal forces to your designs to determine maximum loads
before buckling. Study the effects of various materials as well as
isotopic and orthotropic factors. |
| |
|
|
| Back to Top |
|
Simulate Heating or Cooling
 |
Thermal analysis capabilities enable you
to easily study heat effects on your designs. Simulate thermal
boundary conditions, fluid flow, thermal-structural interactions,
and radiation effects in high-temperature applications |
| |
|
|
| Back to Top |
|
Simulate Drop Test or Impact
 |
Save time and cost by reducing the number
of physical tests. Define drop height, surface, and
orientation. Perform realistic collision simulation between parts or
assemblies |
| |
|
|
| Back to Top |
|
Simulate Repeated Loading
 |
Simulate, evaluate, and improve a part or
assembly that must withstand the rigors of daily operation. Evaluate
the differences in your system’s performance to varying speeds or
frequencies, and estimate the design life of your entire product. |
| |
|
|
| Back to Top |
|
