Abstract: In this talk, we discuss the construction of admissible, physics-consistent and identifiable stochastic models for uncertainty quantification. We first consider a continuum mechanics setting ...

“Multiscale Structural Mechanics: Top-Down Modeling of Composite Structures Using Mechanics of Structure Genome” delivers a unified approach to composites modeling based on the concept of structure ...

The Mechanics of Multi-scale Materials research group uncovers the relationships of structures across the full range of engineering scales, from the molecular to the macro. In addition to established ...

Dislocation dynamics simulations, multiscale constitutive modeling, physics-based modeling of composite fatigue and failure, failure and durability of ceramics and ...

Understand the underlying principles of molecular dynamics (equations of motion for atoms, atomic interactions). Gain proficiency in designing molecular dynamics simulations using available software ...

Researchers used a 'reduced physics' fluid model of plasma turbulence to explain unexpected properties of the density profile inside a tokamak experiment. Modeling plasma's turbulent behavior could ...

Patient digital twins aim to create computational replicas of an individual’s physiology that can predict disease trajectories and treatment response.

A UC Santa Barbara chemical engineer is being recognized for his achievements in changing the way scientists approach complex molecular systems through multiscale modeling. Professor M. Scott Shell ...

Understand the underlying principles of molecular dynamics (equations of motion for atoms, atomic interactions). Gain proficiency in designing molecular dynamics simulations using available software ...