Digital Material Research & Development with GeoDict
Virtual Design, Testing, and Optimization of Advanced Materials
GeoDict by Math2Market empowers engineers and scientists to digitally design and analyze materials before they are physically produced. By simulating material properties based on real or synthetic 3D microstructures, GeoDict accelerates research and development across a wide range of industries.
This virtual approach reduces time-to-market, lowers material waste, and supports the development of next-generation materials tailored to precise performance goals.
From Microstructure to Material Properties
GeoDict enables users to either import high-resolution 3D imaging data (e.g., from micro-CT scans) or generate realistic synthetic microstructures using parametric design tools. The software supports the evaluation of:
- Porosity and density
- Fiber or particle orientation
- Layered structures and composites
- Pore connectivity and tortuosity
These structural characteristics directly influence the mechanical, thermal, electrical, and transport behavior of materials—and can all be analyzed within GeoDict.
Take Your R&D Workflow to the Next Level
Digitize your material development with GeoDict and explore how structure determines performance—before making a single prototype. Contact us today to request a personalized consultancy.
What You Can Simulate with GeoDict
✔ Mechanical performance
Predict stiffness, strength, and deformation behavior based on 3D geometry and material distribution.
✔ Thermal and electrical conductivity
Analyze heat flow or electrical current through the microstructure, including anisotropic effects.
✔ Fluid flow and permeability
Simulate gas or liquid transport through porous materials.
✔ Effective diffusivity
Evaluate how substances diffuse through heterogeneous or multi-phase media.
By virtually testing these properties, developers can iterate on designs quickly—without waiting for fabrication or lab results.
Application Fields
GeoDict supports digital material R&D in:
- Lightweight composites
- Fiber-reinforced plastics
- Ceramic foams and sintered materials
- Insulation and construction materials
- Filter and membrane development
- Energy-related materials (e.g., battery components)
The software adapts to various structures, compositions, and performance targets across sectors like automotive, aerospace, electronics, and biomedical materials.
🚀 Why Use GeoDict in Digital R&D?
🔬 Realistic modeling of 3D structures
⚙️ Virtual testing of key material properties
📉 Reduce cost and physical prototyping needs
⏱ Accelerate innovation and material screening
📊 Quantitative data for design decision-making