A Beginner’s Guide to the Digital Material Laboratory GeoDict
Seminar recording
The digital transformation of material research and development is no longer a luxury but a necessity to manage limited resources of time, personnel, and budget. This online seminar, led by Jürgen Becker, Head of the Math2Market Support Team, provides a comprehensive introduction to GeoDict, the premier solution for the digital material laboratory.
We explore the transition from traditional laboratory prototyping to digital material design. The session details a professional workflow—from importing and segmenting micro-CT images to predicting physical properties and generating statistical Digital Twins. By bridging the gap between real-world samples and digital models, R&D departments can accelerate innovation in fields such as filtration, battery technology, and composite materials.
In this seminar you will learn step-by-step:
- Import & Processing: Utilizing micro-CT data to create voxel meshes.
- Geometric Analysis: Identifying individual grains and fibers using AI-driven modules like GrainFind and FiberFind.
- Property Prediction: Computing physical properties such as permeability, flow velocity, and pressure drop.
- Virtual Material Design: Creating stochastic digital twins to optimize material parameters before physical production.
- Advanced Applications: Glimpses into filter clogging, mechanical deformation in porous transport layers, and ion concentration in batteries.
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More Information
Chapters in YouTube Video
0:00 Intro
1:39 Introduction to The Digital Material Laboratory
8:08 Live Demo: Importing and Segmenting Micro-CT Data
16:57 Live Demo: Geometric Analysis
22:22 Live Demo: Predicting Physical Properties
28:27 Creating Statistical Digital Twins
34:15 Live Demo: Fiber Identification with FiberFind
44:12 Design New Materials
46:15 Advanced Outlook: Capabilities of GeoDict
50:50 Q&A Session
56:36 Outro
