Faculty Directory
|
Office: 101 Textile Building |
|
Composites; interfacial adhesion, flow through porous media, mechanics of flexible structures |
|
Office: 222 Textile Building |
|
Polymer and nano composites, extrusion, injection molding, compression molding, fibers, yarns, fabrics, weaving, knitting, braiding, computer-aided design and modeling, testing and analysis |
|
Office: 103 Textile Building |
|
Polymer materials science, polymer nanocomposites, flow behavior of polymers, rheology, control of microstructure and nanostructure in materials, polymers for structural and biomedical applications, shape memory polymers |
|
Office: 221 Textile Building |
|
Biopolymers for medical applications, natural fibers and polymers from renewable resources, application of engineered enzyme systems, hydrogels, electrospinning, coloration, surface modifications |
|
Office: 232 Textile Building |
|
Polymer nanocomposities, bio-degradable polymers, polymer processing, sol-gel derived nanoparticles, clay based nanocomposites |
|
Fiber and polymer science, quality engineering, statistical analysis of fiber properties, geotextiles |
|
Office: 222A Textile Building |
|
Mechanics of ceramic and polymer matrix composites, Manufacture and testing of fibrous composites, Time-dependent response of viscoelastic materials, Modeling of the mechanical behavior of nanocomposites for static and transient loading and non-linear response of flexible structures. |
|
Office: 117 Textile Building |
|
Engineered fabrics and design; protective materials (including ballistic resistance, blast protection, chemical resistance, flame resistance, biological agent protection); aircraft and vehicle protective structures; fiber-based medical fabrics and protective materials; communications enhancing, structual reinforcement fibruous structures |
|
Office: 223 Textile Building |
|
Conducting polymers, carbon nanotubes, sensors, nanocarbons, energy storage and harvesting |
