Innovation and collaborative, synchronized program management for new programs
Simcenter Mechanical solutions enable engineers to predict the performance of 3D geometry-based designs. In our Simcenter 3D CAE products, you can import geometry from any CAD source and prepare analysis models in a unified environment for a wide range of CAE methods including finite element, boundary element, computational fluid dynamics, and multi-body dynamics.
Simcenter’s integrated high-end, multi-discipline solutions are scalable for use by general CAE analysts and discipline experts. Additionally, by linking 3D simulation to Simcenter’s 1D and testing solutions, you can achieve unmatched accuracy.
Simcenter Mechanical solutions enable engineers to predict the performance of 3D geometry-based designs. In our Simcenter 3D CAE products, you can import geometry from any CAD source and prepare analysis models in a unified environment for a wide range of CAE methods including finite element, boundary element, computational fluid dynamics, and multi-body dynamics.
Simcenter’s integrated high-end, multi-discipline solutions are scalable for use by general CAE analysts and discipline experts. Additionally, by linking 3D simulation to Simcenter’s 1D and testing solutions, you can achieve unmatched accuracy.
Discover the power of Simcenter for delivering the next generation of electrical machines. With modern electrical machines subjected to strict environmental and efficiency regulations, engineers need to be confident their design tools can predict performance with increase accuracy.
Achieve better insight in product performance through efficient preprocessing, fast multidiscipline solvers and application-specific postprocessing
Create finite element analysis models of complex products or systems and investigate their behavior when subjected to various operational environments.
Thoroughly analyze and optimize occupant and pedestrian safety designs early in the development process
Increase computational performance, accuracy, reliability and scalability by applying premier finite element method (FEM) solver
Optimize, design, and analyze simple to complex low frequency electromagnetic, permanent magnet and electromechanical devices
Effectively size and design motors, generators and alternators using an all-in-one specialized tool
Apply finite element technology for accurate analysis of electric machines performance.
Accurately represent tire performance to predict vehicle dynamic behavior.
Develop and test advanced materials faster and with more accuracy.