CMEELab

CMEELab is a lab aiming for Computational Material research under Extreme Environment. The computational techniques range from nano- to macro- scale including fluid mechanics, solid mechanics, and material science.

Research Areas

Complex system

Multi-physics

Many scientific/engineering systems are involved with multidisciplinary subjects including fluid mechanics, solid mechanics, material science, chemistry, high energy particles, etc. One of CMEELab's goals is to apply multi-physics models to tackle the complex systems.

Multi-scale simulations

Accuracy

Nature comes with different scales and many phenomenon are driven by lower scale processes. Using a platform integrated with multi-scale simulations can improve the accuracy of the simulation platform.

Data Science

Efficiency

Various machine learning algorithms are used in accelerated discovering, manufacturing, and deploying advanced materials.

Gallery

Super-thermal ions at a quasi-parallel collisionless shock [Su et al., 2012]

Pore structure of the four media using a stochastic algorithm of crystal nucleation and growth or creating void space with simple geometrical shapes [Huber and Su, 2015].

Schematic diagram for a numerical model we designed to study the sulfur degass process in volcanic eruptions [Su et al., 2016].

3D relaxed GSFE surface on one of the (111) planes in a model material [Su et al., 2019].

Comparison of the measured and calculated (CPFEM) elastic stress-strain curves for the HCP Mg nano-composite [Su et al., 2020]

Critical Shape for the Growth of Grain Boundary Twin Embryos in Mg and Mg Alloys: Crystal Plasticity Modeling [Su et al., 2022]

Energetically favorable dislocation/nanobubble bypass mechanism in irradiation conditions [Jian et al., 2022]

The effect of local chemical ordering on Frank-Read source activation in a refractory multi-principal element alloy [Smith et al., 2020]

Address

Office: ENGR 419Q
Mechanical & Aerospace Engineering
Utah State University
4130 Old Main Hill
Logan, UT 84322-4130

Contacts

Email: yanqing.su@usu.edu
Phone: 435-797-0957