Shorten cycle times, improve machining quality,
reduce weight, increase stiffness, etc.
We have compiled some examples for you:
Machine Slides - Stiffness Maximization Through Sheet Thickness Optimization
A machine slide is used to demonstrate the sheet thickness optimization process in Meshparts. The process is based on a special type of topology optimization.
A global optimum is guaranteed and the result can be transferred one-to-one into the CAD design.View more
Clamping Device - Improved Product Quality
Clamping devices are often produced in small quantities, but design errors can still be very costly. Thanks to the integrated model library, clamping devices can be simulated quickly and easily.
Clamping devices can be effectively optimized with Meshparts by simple adjustment of the boundary conditions and automated evaluation of the results.View more
Turning Spindle - Optimization of Dynamic Properties
Spindles have a considerable influence on productivity in machine tool manufacturing. High-detail models of the rolling bearings from the Meshparts library make simulation particularly easy and provide detailed results.
The high level of detail of the models, taking bearing preload into account, improves the informative value of the results.View more
Extend the life of components with
We show you how:
Use the predefined Meshparts models for the design and calculation of ball screws. Enter the parameters in Meshparts and a few clicks later you have a finished FE model.
With our simulation solution you can calculate both the deformations of the ball screw and the load on each individual ball. Our sophisticated models keep the calculation effort within limits.View more
Have you ever wondered how the bearings behave in the installation situation? Then you've come to the right place. Our models enable you to calculate the individual rolling bearings as well as the calculation in corresponding assemblies.
Our solutions take your simulation models to a new level.Continue