Fatigue lifetime prediction of short fiber reinforced plastics (SFRP)

More accuracy from material card calibration to FEA simulation results post-processing

Database management for static and enhanced CAE analysis - RADICI GROUP

Digimat allows to significantly decrease safety margins and reduce weight - SONACA

Simulation of 3D woven materials in Aerospace industry

Simulating SMC part response with greater confidence using Digimat

Simulating effects of warpage in an additively manufactured composite layup tool - STRATASYS

Advanced anisotropic damping modeling for NVH optimization - FORD MOTOR COMPANY

Mastering the microstructure of composite materials for optimizing NVH performance

Digimat helps shortening the early design development cycle of an SFRP - SOKARIS

Computation of Allowable Values for CFRP - LEONARDO COMPANY

Acoustic Simulation of Anisotropic Injection Moulded Parts - IPPS

Ultimate strength prediction of a plenum under pressure produced by selective laser sintering - SOLVAY

Identifying the best design configuration with Digimat-RP/Moldex3D

Digimat Material Model for Short Fiber Reinforced Plastics at Volvo Car Corporation - VOLVO CAR CORPORATION

Quasi-static and dynamic failure prediction on a front end carrier

Improving failure prediction of injected parts made of reinforced plastics - VALEO

Destructive test simulation of an automotive radiator component made of short glass fibers filled plastic

Digimat to identify damping behavior of an SFRP and enrich NVH structural FEA

Prediction of the damping behavior of a roof front beam in NVH simulations

Effect of residual stresses induced by manufacturing process in Discontinuous Fiber Composites (DFC) made part

Digimat enables us to perform in-depth analysis of the complete manufacturing cycle of very complex microstructure such as DFC. This complete solution is a cutting edge asset in the development of new composite materials and products.