ADELPHI, Md. (Aug. 15, 2012) -- At the U.S. Army Research Laboratory scientists and engineers have been studying how they can make higher performance materials for Soldiers at lighter weights. Army ...

High-strength aluminum alloys are critical for making cars and planes more lightweight and fuel-efficient, but manufacturers ...

Surface modification of micro-nanoparticles at the atomic and close-to-atomic scales is of great importance to their applications in a variety of fields, such as energy storage, catalysis, sensors, ...

Researchers at the University of Chicago have created the first usable computational model of the entire virus responsible for COVID-19—and they are making this model widely available to help advance ...

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 ...

Building models is a key element of today’s science behind bioprocessing. The value of such models, however, depends on the information being produced. To improve models of bioprocessing, Mariana ...

Learn theory and fundamental principles of molecular simulation techniques nanomechanics and biomechanics. Apply molecular simulation tools to explain nanoscale solid and fluid mechanics phenomena ...

When I tell people that I am a modeler, they look at my clothes and general lack of fashion sense and their eyes say, "nuh-uh." When I clarify that I am a multi-scale modeler, I sometimes add, "no I ...

Computational modeling is used to simulate and study complex systems using computer science, physics, and mathematics. Numerous variables are programmed into the computational model to characterize ...