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 ...

In quantum mechanics, the geometry of quantum states has emerged as a powerful framework for understanding phenomena ranging ...

Due to their attractive mechanical, electrical and optical properties, nanomaterials have attracted a lot of research interest. We are especially interested in the mechanics of nanomaterials, ...

Mechanics in Biology combines the beauty and complexity of the natural word with the elegance of mathematical techniques. We in this group cover a wide range of problems from molecular scale to the ...

Mechanics of materials focuses on quantitative description of the motion and deformation of solid materials subjected to forces, temperature changes, electrical voltage or other external stimuli. At ...

Composites are materials composed of at least two distinct phases (for example carbon fibers in a polymer matrix) in a defined geometric relationship, which are constructed in such a manner that the ...

Classical mechanics, as a research area, studies the motion of macroscopic bodies under the influence of forces within the framework of Newtonian, Lagrangian, and Hamiltonian formalisms. It ...

Bristol has a successful history of using applied mechanics and cutting-edge technology to help define and solve industrially motivated challenges. The Solid Mechanics Research Group (SMRG) has ...