Digimat
The Material Modeling Platform
Material engineering is evolving from empirical experimentation to simulation-driven innovation. Digimat empowers engineers and designers to create accurate digital twins of materials, capturing complex behaviors and manufacturing effects with precision. By virtually replicating advanced materials—such as plastics, composites, metals, and elastomers—Digimat enables users to simulate, understand, predict, and optimize material behavior from microstructure to full-system performance.
By bridging the gap between materials, manufacturing, and performance, Digimat enables the creation of lightweight, sustainable, and high-performance designs while reducing the need for physical testing. Its integration of multiscale simulations into the design process enhances reliability, accelerates product development, and shortens time to market—making Digimat a cornerstone of smarter, more efficient engineering.
Smarter Engineering Through Material Simulation
Simulate material behavior early in the design process to reduce the need for physical prototyping and testing, bringing products to market faster.
Reduce material waste and optimize designs to support eco-conscious engineering.
Cut down on costly and time-consuming lab work by leveraging accurate virtual material models that streamline development workflows.
Apply multiscale simulations to design lightweight components without compromising strength or performance.
Use digital twins to efficiently screen material candidates, minimize trial-and-error, and accelerate the selection of optimal material systems.
Link material properties, manufacturing processes, and structural performance to make holistic, performance-driven design decisions with high confidence.
Use digital twins to efficiently screen material candidates, minimize trial-and-error, and accelerate the selection of optimal material systems.
Harness AI, machine learning, and advanced simulation to explore new material systems, assess variability, and unlock faster innovation cycles.
Accelerate Innovation with Advanced Material Modeling
Digimat offers a comprehensive set of tools for modeling advanced materials. From virtual testing to multiscale modeling to structural performance, Digimat delivers insights that help you design smarter, simulate faster, and manufacture with confidence.
Replace physical testing with virtual simulations and digital twins to analyze material behavior and optimize selection and design.
Study porosity, delamination, and waviness in coupon tests and include variability through sensitivity studies to reduce development time and cost.
Simulate nonlinear behavior by integrating manufacturing effects such as fiber orientation, weld lines, and curing defects for accurate predictions.
Evaluate gate scenarios and simulate molding and structural behavior to identify optimal gate positions for improved part performance.
Assess variability in material properties and manufacturing processes and quantify confidence levels in simulation results for robust design decisions.
Integrate with FEA tools to simulate stiffness, strength, impact, fatigue, and creep, then predict lifetime and failure variability through post processing.
Simulate 3D printing of polymers and composites to detect porosity, model residual stresses and warpage, and optimize toolpaths and compensation strategies.
Calibrate material models using limited experimental data tailored to specific design requirements.
Revolutionize Your Engineering Process with Material-Focused Solutions
CAEfatigue
Cloud Simulation Solutions
Marc
MaterialCenter
MSC Nastran
ODYSSEE
We have been doing this since 1998 with a tremendous passion for data and technology and a real results-oriented, no-nonsense mentality. In an open, transparent working environment, we like to give our specialists the space to get the best out of themselves. The love of the profession, freedom and synergy between our young potentials and professionals result in a close-knit team feeling.