Can we develop smart materials and structures that sense, deform, and adapt to environmental changes?
Hang Xu
- Assistant Professor
- Department of Mechanical, Industrial and Aerospace Engineering
- metamaterials2
- aerospace69
- additive manufacturing4
- advanced 3D printing techniques6
- soft robotics
- medical devices4
- aircraft structures8
- smart materials5
- architected materials
- smart structures4
- lattice materials2
- finite element method15
- structural design9
- multiscale mechanics
- computational mechanics6
- programmable materials
- mechanical reconfiguration
- CATIA3
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Ramin Sedaghati
adaptive structures, smart materials, smart structures
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Ashok Kaushal
rotor dynamics, vibration, CATIA
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Tsz Ho Kwok
advanced 3D printing techniques, CAD/CAM, design automation
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Behrooz Yousefzadeh
vibration, nonlinear dynamics, metamaterials
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Suong Van Hoa
nanocomposites, industry 4.0, materials science
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Ayhan Ince
fatigue and fracture modeling, computational mechanics, multiaxial fatigue
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Emre Erkmen
computational mechanics, multiscale modeling, solid mechanics
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Farjad Shadmehri
thermoplastics, composites, thermoplastic composites
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Rajamohan Ganesan
structural dynamics, composite laminates, vibration
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Ashutosh Bagchi
structural engineering, earthquake engineering, smart structures
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Mehdi Hojjati
composites, automated fibre placement (AFP), industry 4.0
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Jassim Hassan
structural engineering, buildings, bridges
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Subhash Rakheja
fluid-structure interactions, health and safety, anti-slosh devices
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Ghazanfarah (Farah) Hafeez
timber buildings, modal analysis, seismic design
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Rama Bhat
vibration, rotor dynamics, structural acoustics
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Krzysztof Skonieczny
planetary rovers, robotics, vehicle-terrain interactions
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Pantcho Stoyanov
tribology, aerospace, thermally-sprayed coatings
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Susan Liscouët-Hanke
aircraft systems architecture, future aircraft, systems integration
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Marius Paraschivoiu
computational fluid dynamics, hydrogen technology, wind energy
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Ion Stiharu
micromachining, microfabrication, tribology