How can complex dynamics be useful in the design of new devices and materials?
Behrooz Yousefzadeh
- Assistant Professor
- Department of Mechanical, Industrial and Aerospace Engineering
- vibration16
- nonlinear dynamics4
- metamaterials2
- complex dynamic systems19
- bifurcation analysis2
- wave propagation2
- acoustics4
- noise control2
- structural dynamics13
- nonlinear structural dynamics3
- stability theory4
- dynamical systems2
- advanced materials
- materials science42
- lattice materials2
- computational mechanics6
- finite element method15
- mathematical modeling17
- asymptotic methods2
- pattern formation2
-
Jason Bramburger
nonlinear dynamics, complex dynamic systems, bifurcation analysis
-
Ion Stiharu
micromachining, microfabrication, tribology
-
Ramin Sedaghati
adaptive structures, smart materials, smart structures
-
Emre Erkmen
computational mechanics, multiscale modeling, solid mechanics
-
Suong Van Hoa
nanocomposites, industry 4.0, materials science
-
Hang Xu
metamaterials, aerospace, additive manufacturing
-
Rajamohan Ganesan
structural dynamics, composite laminates, vibration
-
Lan Lin
bridges, buildings, structural engineering
-
Ghazanfarah (Farah) Hafeez
timber buildings, modal analysis, seismic design
-
Mojtaba Kheiri
fluid-structure interactions, nonlinear aeroelasticity, kite power systems
-
Ayhan Ince
fatigue and fracture modeling, computational mechanics, multiaxial fatigue
-
Ashok Kaushal
rotor dynamics, vibration, CATIA
-
Jassim Hassan
structural engineering, buildings, bridges
-
Ida Karimfazli
complex fluids, fluid mechanics, heat and mass transfer
-
Lucia Tirca
seismic design, earthquake engineering, innovative steel structures
-
Subhash Rakheja
fluid-structure interactions, health and safety, anti-slosh devices
-
Khashayar (Kash) Khorasani
control systems, cooperative control, nonlinear system control
-
Waiz Ahmed
vehicles, railways, vehicle dynamics
-
Joonhee Lee
noise, sound studies, architectural acoustics
-
Farjad Shadmehri
thermoplastics, composites, thermoplastic composites