Lighter, Stronger, Thermally and Electromagnetically Shielded Composite Materials
Nanostructures and nanostructured composite form of materials have physical properties, which are most often very different from their bulk form. Often in Nature, this type of nanostructured materials gives rise to important properties in earth and planetary structural consolidation and natural living species. Understanding these processes and ways to make new nanostructures and its combined forms have important applications in designing better structures that involve not only macro-scale geometry but also …
Materials for Extreme Environment & Space Exploration
Extreme environments involving superheated, nuclear-ionization radiations or electron gas interactions with materials lead to challenging problems in understanding material response. While experimental studies are not straightforward, mathematical models and computer simulations can provide important insights. Finding engineering solutions to such problems are of interest. Some of the emerging applications in near future are in hypersonic flight vehicles, laser and x-ray based diagnostics and dynamic response mitigation in materials, deep-space structures, fusion …
Materials , Structure & Manufacturing
Our research in the areas of material and structures aims to develop and apply predictive modeling and simulation techniques and design materials at nano, micro and macroscopic scales for application in aerospace structures and others such as electronic devices, sensors and bio-systems. Below is a list of some of the major problems.
Materials for Extreme Environment & Space Exploration
Lighter, Stronger, Thermally and Electromagnetically Shielded Composite Materials
Opto-Electro-Mechanical Materials and Devices
Bio-Materials and Therapeutics in …
Sensors, IoT & advanced testing technologies
Aerospace Systems Health Monitoring and Diagnostics
Natural and Bio-systems Health Monitoring and Diagnostics