| Professor | • Computational Fluid Dynamics;
• Turbomachinery;
• Rotating Machines;
• Heat/Mass Transfer;
• Metal Matrix Composites;
• Environmental Remedial Technology;
• Micro-Biological Transport Phenomena;
• Aerodynamics;
• Propulsion Engineering. |
| Assistant Professor | • Advanced modeling techniques for solving multiphysics problems
• Reduced-order and real-time coupled-field simulations
• Design and characterization of micro-mechanical sensors and actuators
• Computational biomechanics
• Finite element method
• Fiber Bragg gratings
|
| Associate Professor | • Nanoparticle synthesis, assembly, and nanofabrication;
• Carbon nanotubes and hybrid nanomaterials;
• Nanostructure-based gas sensors and biosensors;
• Corona discharges and plasma reacting flows;
• Energy conversion and conservation;
• Pollution control. |
| Associate Professor | • CAD;
• Design Optimization;
• Homotopy Methods;
• Fuzzy Set Theory;
• Finite Elements. |
| Associate Professor | • Polymer nanocomposites;
• Smart materials (actuators, sensors);
• Photopolymerizable macromers for tissue engineering applications;
• Multifunctional drug carriers;
• Biobased plastics;
• Microcellular plastics;
• Microwave-assisted polymerization, and polymer processing. |
| Professor | • Thermal Aspects of Machining Processes (e.g., grinding, turning, honing, milling, drilling, etc.);
• Environmentally benign manufacturing;
• Diffusion Bonding;
• Fuel Cells and Hydrogen Generation Technology;
• Cold Gas Dynamic Spraying for nanoparticles;
• Nano-Technology (thermal) in Materials Processing;
• Biosensing Technology;
• CFD and Numerical Heat Transfer. |
| Assistant Professor | • Mechatronics;
• Control, Optimization, Diagnostics and Prognostics of Mechanical Systems;
• Extremum Seeking Control;
• HVAC Control Systems;
• Power Management of Plug-in Hybrid Electric Vehicles;
• Underwater Robot and Observation Systems;
• Wireless Process Control;
• Active and Semi-Active Control of Sound and Vibration;
• Smart Structures. |
| Assistant Professor | • Fuels from sunlight (photoreduction of CO2 to fuels; solar hydrogen; concentrated solar reactor)
• CO2 capture and utilization (functionalized CO2 sorbents; CO2 fixation by microalgae)
• Nanomaterial synthesis and characterization
• Energy storage devices
• Pollution control (emissions control from combustion sources; atmospheric pollutants; wastewater treatment)
• Aerosol science and technology
|
| Professor | • Tribology;
• Materials Processing;
• Product Realization |
| Assistant Professor | • Self-organization at the interface (self-healing, self-lubrication, self-cleaning)
• Biomimetic surfaces, including novel applications of the Lotus effect
• Adhesion and capillary force
• Scaling laws in tribology
• Contact mechanics and dynamic friction
|
| Associate Professor | • Control Theory and Applications;
• Robust Multivariable Control;
• Robotics;
• Neural Network;
• Fuzzy Logic;
• System Modeling. |
| Associate Professor | • Flow and Transport in Porous Media (Modeling liquid motion through fiber bed during processing of polymer composites, Wicking of liquids in rigid as well as swelling porous substrates, Evaporation of Multicomponent Liquids);
• Computational fluid mechanics and heat transfer;
• Rheology of polymers. |
| Associate Professor | • Laser diagnostics of combustion processes;
• Combustion chemical kinetics;
• Alternative fuels;
• Engineering education;
• Internal-combustion engines;
• Air pollution minimization;
• Optics;
• Fluid mechanics;
• Gas dynamics;
• Energy efficiency;
• Lubrication. |
| Associate Professor | • Computational and experimental methods in heat and mass transfer;
• Radon entry dynamics, transport and innovative mitigation techniques;
• Convective transport in porous media;
• Multiphase flow and heat transfer;
• Energy conversion;
• Energy conservation; heat transfer augmentation;
• Data acquisition and instrumentation;
• Aerosol science;
• Indoor air quality and pollution control;
• Engineering education. |
| Assistant Professor | • In Situ self-replenishing solid/powder lubrication
• Fundamental tribodynamics applied to fluid- and solid-/powder-based mixed- and/or boundary-lubrication systems
• Frictional heating in extreme-speed (up to hypersonic) flows
• Tribology-based green (environmentally-benign) manufacturing.
• Nanotribology using atomic force microscopy-based in situ tribometry and molecular dynamics (MD) simulations of micro- and nano-scale systems
• Front-end energy diagnostics (FEEDs) of small-, medium-, and large-scale energy systems
|
| Assistant Professor | • Sustainable design and manufacturing
• Sustainability of nanotechnology
• Manufacturability and scale-up of nano-manufacturing
• Atomic Layer Deposition (ALD) of nano-scale thin films
• Life Cycle Assessment (LCA) and Risk Analysis (RA)
• Manufacturing energy efficiency optimization
• Pollution prevention and waste minimization
|
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16 Records Returned |
