Overview Digimat-MX, developed by Hexagon, is a comprehensive composite materials database that facilitates the reverse engineering, storage, retrieval, and secure sharing of material models. It provides access to an extensive public database populated by leading material suppliers, offering ready-to-use Digimat material models that encompass various performance attributes such as static stiffness, strength, NVH (Noise, Vibration, and Harshness), creep, fatigue, and crash behaviors. Additionally, Digimat-MX supports the creation of private databases, enabling users to calibrate micromechanical models accurately based on limited experimental data. The platform's encryption features ensure secure data sharing, maintaining confidentiality and fostering collaboration among engineers and material scientists. Features and Capabilities

• Database Management:
  • Local or Remote Databases: Manage material data stored locally or on remote servers, providing flexibility in data access and storage.
  • Public, Personal, and Shared Databases: Access a public database from material suppliers, create personal databases, or establish shared databases for collaborative projects.
  • Generic and Specific Filtering: Utilize filtering tools to efficiently search and retrieve material data based on specific criteria.
  • Table and Supplier View: View data in tabular formats or by supplier, enhancing data organization and accessibility.
  • Data Import and Data Sharing: Import experimental data and share material models securely within the user community.
  • Groups and Users' Privileges: Define user groups and assign privileges to control access and editing rights within the database.
  • Encryption Features: Ensure secure data sharing and storage through robust encryption, maintaining confidentiality and data integrity.
  • Pedigree: Track the origin and history of material data to maintain data quality and reliability.
  • Plotting Tools: Visualize material properties and behaviors through integrated plotting tools, aiding in data analysis and interpretation.
  • Unit System Conversion: Convert material data between different unit systems to accommodate various regional and industry standards.
• Reverse Engineering:
  • Automatic for Chopped and Continuous Fibres Reinforced Polymers: Automatically calibrate models for materials reinforced with chopped or continuous fibers, streamlining the reverse engineering process.
  • Interactive for Static and Dynamic, Temperature and Frequency Dependence, Creep, Thermal Expansion, Failure, and Localisation Factor: Interactively adjust models to account for various material behaviors, including static and dynamic responses, temperature and frequency dependencies, creep behavior, thermal expansion, failure mechanisms, and localization factors.
  • FEA Validation: Validate material models through Finite Element Analysis to ensure accuracy and reliability in simulations.