About Digimat
Digimat is a simulation software platform from Hexagon that specializes in advanced material modeling and composite manufacturing. It provides reinforcement modeling, multi-scale analysis, and material property prediction so engineers can accurately predict component behavior under various conditions. This allows users to reduce prototyping costs and time. Digimat supports integration with various CAD and CAE tools, ensuring compatibility across different workflows. Key capabilities: material behavior modeling fiber-reinforced composites multi-scale modeling process simulation structural analysis Best for: engineers and manufacturers that need to analyze and simulate the behavior of advanced materials in their designs.
Digimat, Hexagon’s Nonlinear Multi-scale Material and Structure Modeling Platform, is a state-of-the-art solution designed for material suppliers, automotive, aerospace, and electronics sectors. Its core purpose is to drive material innovation and lightweight product design by bridging the knowledge gap between complex multiphase materials (like composites, metals, and elastomers), their manufacturing processes, and the final structural part performance using an Integrated Computational Materials Engineering (ICME) approach. The system is structured around three powerful pillars: a Digital Materials Laboratory for virtual testing, Multiscale Simulations that intrinsically connect data to enrich FEA, and a dedicated module for Polymer Additive Manufacturing. The platform's distinctive features include its capability for multiscale modeling, which sets it apart by connecting manufacturing-induced material changes directly into CAE analyses, thereby minimizing waste and development time. The specialized Polymer Additive Manufacturing module is particularly valuable, designed to eliminate hundreds of physical trials and errors with just a few clicks, optimizing both productivity and component performance. This focus on predictive modeling ensures high efficiency and reliability, delivering substantial value by reducing product cost, weight, and time-to-market.
Pros & Cons
- +Provides highly accurate simulation by connecting microstructure, process, and structural behavior.
- +Reduces physical testing costs through virtual experiments and digital materials laboratories.
- +Integrates easily with popular CAE solvers and manufacturing simulation software.
- +Enables development of lightweight, high-performance composite and polymer products.
- +Backed by Hexagon’s global infrastructure, ensuring enterprise-grade reliability and updates.
- −Requires advanced technical expertise, making it difficult for beginners to use effectively.
- −High computational requirements demand powerful hardware or HPC clusters.
- −Lacks a simple user interface compared to mainstream CAD or simulation tools.
- −No dedicated in-app marketplace for third-party extensions or add-ons.
- −Complex licensing structure can make pricing and configuration confusing.
Features
Key features
- Multiscale Simulation
- Links microscale material behavior to part-level structural performance for accurate predictions.
- Process-Aware Modeling
- Integrates manufacturing effects like injection molding, fiber orientation, and residual stresses into simulation results.
- Material Database (Digimat-MX)
- Centralizes, calibrates, and manages complex material models to streamline R&D.
- Finite Element Microstructure Analysis (Digimat-FE)
- Simulates material microstructures using FEA or FFT to predict detailed local behaviors.
- Virtual Testing (Digimat-VA)
- Conducts virtual material testing to reduce physical test requirements and development time.
- Additive Manufacturing Simulation (Digimat-AM)
- Predicts print warpage and optimizes 3D printing parameters for composites and polymers.
- Solver Integration
- Seamlessly connects with major CAE solvers like Abaqus, Ansys, and LS-DYNA for coupled simulations.
- Fatigue and Reliability Analysis
- Evaluates material variability, failure probability, and product lifetime.
Additional features
- Digimat-MF
- Performs mean-field homogenization for fast estimation of effective composite properties.
- Digimat-MX
- Manages, calibrates, and shares validated material models across teams.
- Digimat-FE
- Creates realistic 3D microstructures for finite element and FFT-based analyses.
- Digimat-VA
- Simulates full virtual test campaigns for composites under various load conditions.
- Digimat-MS
- Connects material, process, and structural performance for multiscale simulations.
- Digimat-AM
- Simulates additive manufacturing of polymers and composites to predict residual stresses and distortions.
- Process Integration
- Incorporates process simulation data from tools like Moldflow or Moldex3D.
- Solver Interfaces
- Integrates with Abaqus, Ansys, Marc, LS-DYNA, MSC Nastran, PAM-CRASH, and OptiStruct.
- Digital Materials Laboratory
- Enables virtual design and testing of new materials.
- Probabilistic Simulation
- Accounts for uncertainties and variations in material and process parameters.
- Failure and Fatigue Prediction
- Simulates damage initiation and propagation under cyclic loads.
- Thermal and Mechanical Coupling
- Analyzes materials under combined thermal and structural loads.
- High-Performance Computing Support
- Scales simulation workloads across clusters for large datasets.
- MaterialCenter Integration
- Connects with Hexagon’s data management suite for unified materials workflows.
- Additive Manufacturing Optimization
- Reduces trial-and-error in 3D printing setup for improved part performance.
- Lightweight Design Optimization
- Supports design of lightweight, high-performance structures.
- Data Exchange Interfaces
- Imports and exports models across CAD/CAE systems for workflow consistency.
- Material Characterization
- Supports reverse engineering from test data to define material laws.
- Educational Version
- Offers Digimat Student Edition for training and academic research.
Pricing
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About Digimat
Digimat is a simulation software platform from Hexagon that specializes in advanced material modeling and composite manufacturing. It provides reinforcement modeling, multi-scale analysis, and material property prediction so engineers can accurately predict component behavior under various conditions. This allows users to reduce prototyping costs and time. Digimat supports integration with various CAD and CAE tools, ensuring compatibility across different workflows. Key capabilities: material behavior modeling fiber-reinforced composites multi-scale modeling process simulation structural analysis Best for: engineers and manufacturers that need to analyze and simulate the behavior of advanced materials in their designs.
Digimat Details
Digimat's In-App Market Place
Does Digimat have an in-app market place?
Yes
How many Mini-Apps in the marketplace?
1
Mini Apps
N/A
Pricing Options
Accepted Payment Currencies
USD ($), EUR (€), GBP (£), JPY (¥), AUD (A$), CAD (C$), CHF (CHF), CNY (¥), SEK (kr), NOK (kr), DKK (kr), NZD (NZ$), SGD (S$), HKD (HK$), KRW (₩), INR (₹)
Pros & Cons
- Provides highly accurate simulation by connecting microstructure, process, and structural behavior.
- Reduces physical testing costs through virtual experiments and digital materials laboratories.
- Integrates easily with popular CAE solvers and manufacturing simulation software.
- Enables development of lightweight, high-performance composite and polymer products.
- Backed by Hexagon’s global infrastructure, ensuring enterprise-grade reliability and updates.
- Requires advanced technical expertise, making it difficult for beginners to use effectively.
- High computational requirements demand powerful hardware or HPC clusters.
- Lacks a simple user interface compared to mainstream CAD or simulation tools.
- No dedicated in-app marketplace for third-party extensions or add-ons.
- Complex licensing structure can make pricing and configuration confusing.
Digimat's Support Options
Email Address
info@hexagon.comContact
+39 011 402 5111Digimat's Alternatives
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