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Multiscale Materials
Informatics and Innovation

Advanced predictive physics-based modeling for materials, performance & manufacturing.

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Our Collaborators 

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Leading the Future of Predictive Multi-Scale Modelling for Materials and Manufacturing

At M2i2, we are committed to pioneering and implementing the next generation of predictive, multi-scale, physics-based modelling approaches for simulating material behaviour, component performance, and manufacturing processes.

Driving Innovation in a Rapidly Evolving Business Landscape

In today's fast-paced business landscape, companies must continually innovate to stay competitive. The rapid technological advancements of the 21st century highlight the critical need for ongoing improvements and their swift implementation.

Seamlessly Bridging Science and Industry 

The convergence of science and industry now makes it possible to apply cutting-edge innovations directly to industrial settings, with progress in one driving advancements in the other.

Our Projects 

Voxel-Based Full-Field Eigenstrain Reconstruction of Residual Stresses in Additive Manufacturing Parts Using Height Digital Image Correlation
Microstructural, Mechanical and In-Situ Evaluations of Electron Beam Welded Ti-6al-4v Alloy after Post-Weld Heat Treatments
Automated Stereology and Uncertainty Quantification Considering Spherical Non-Penetrating Dispersions
Modelling and Predictions of Time-Dependent Local Stress Distributions Around Cracks Under Dwell Loading in a Nickel-Based Superalloy at High Temperatures
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