Cellular Biomechanics and Sports Science
¸ÌéÙÖ±²¥â€™s Cellular Biomechanics and Sports Science Laboratory is dedicated to investigating transport phenomena in biological systems and applying lessons learned to bio-inspired applications.
Focused on experimental, theoretical, and numerical studies of multi-scale transport phenomena, current research areas include:
Bio-fluid mechanics
- Fluid dynamic and transport aspects in cardiovascular systems
- Cellular biomechanics and mechanotransduction
- Patient specific hemodynamics
- Brain biomechanics
Bio-mimicry
- Lift generation in a soft porous media and its applications to super lubrication
- The lift mechanics of skiing
Transport Phenomena
- Theoretical, experimental and computational fluid mechanics
- Porous media flow
- Jet impingement and its application to electronics cooling
- Ship hydrodynamics
Facilities
In these areas of study, the following facilities and equipment are available:
Soft Porous Lubrication
- Macro-scale soft porous lubrication apparatus
- Small-scale soft porous lubrication apparatus
- Sliding motion lubrication testing setup
Multi-scale Porous Media Flow
- Permeameters—experimental setups to measure the compression-dependent Darcy permeability of a thin porous layer and random porous media
- Scaled-up indenter for macro-scale porous media—an apparatus for measuring both fluid and solid phases lift generation in macro-scale porous media
- Scaled-up indenter for meso-scale porous media— an apparatus for measuring both fluid and solid phases lift generation in meso-scale porous media
Brain Biomechanics Apparatus
- Experimental apparatus to study the translational impacts and rotational impacts on an artificial head model
An Experimental Setup to Study Squeeze Damping
Cellular Biomechanics Experimental Setup
- Laminar fume hood
- Incubator
- Inverted Microscope
- Flow Chambers with Peristaltic Pump