Projects
Themes
- Characterization of Shock Tubes
- Parametric Approach
- End Effects
- Measurement Techniques
- Design Principles
- Dose-response Curve
- Nano-Technology & Nano Particles
- Blast Testing of Helmet and PPE
- Animal injury models
- Cavitation
- Pharmaceutical Grade Drug Delivery/Testing in Animals
- Neurophysiology abd Behavioral Outcomes
- Biomedical and Molecular Characterization
- Blood Brain Barrier Damage
- Computational Material Science
- Mechanics of Nano, Bio and Structural Materials and Structures
- Finite Deformation
- Nonlinear Finite Elements
- Superplasticity
- Composites
- High Velocity Impact
- Interfaces in Solids
- Thermal Properties of Nanoscale Composites
Projects
- "Characterization of the mechanisms causing blast-induced brain injury”, US Army medical command/Henry Jackson Foundation
- "Primary Blast Injury Criteria for Animal/Human Models using Field Validated Shock Tubes”, US Army Materials and Medical Command
- “Development of methodology for standardized testing under blast loading conditions using modular shock tube”, Program Executive Office, Aberdeen Proving Grounds
- “Fundamental Understanding of the Mechanism of Cavitation, One of Possible Mechanisms of Blast-Induced Traumatic Brain Injury using Surrogate Models”, Office of Naval Research
- "Experimental and Computational Studies of Blast and Blunt Traumatic Brain Injury", Army Research Laboratory
- "Divergent mechanisms of early cellular injury in high-rate blast and slow im", New Jersey Commission on Brain Injury
- "Biofidelic Rat Testing Device (RTD) to Measure Blast Exposure and Loadings for TBI", CFD Research Corporation Under STTR