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Ocean Structures Research
R.D. Gabbai, H. Benaroya, Modeling Vortex-Induced Fluid-Structure Interation, Phil. Trans. R. Soc. A, 366 (2008) 1231-1274
R.D. Gabbai, H. Benaroya, A First Principle’s Derivation Procedure for Wake-Body Models in Vortex-Induced Vibration: Proof-of-Concept, in press Journal of Sound and Vibration
M. Gadagi, H. Benaroya, Dynamic response of an axially loaded tendon of a tension leg platform, Journal of Sound and Vibration, 293 (2006) 38-58
R.D. Gabbai, H. Benaroya, An Overview of Modeling and Experiment of Vortex-Induced Vibration of Circular Cylinders, Journal of Sound and Vibration, 282 (2005) 575-616
P. Dong, H. Benaroya, T. Wei, Integrating Experiments Into an Energy-Based Reduced-Order Model for Vortex-Induced-Vibrations of a Cylinder Mounted as an Inverted Pendulum, J Sound and Vibration, 276 (2004) 45-63
H. Benaroya, T. Wei, S. Kuchnicki, P. Dong, Extended Hamilton’s Principle for Fluid-Structure Interaction, Proc. Instn. Mech. Engrs, Vol. 217 Part K: J Multi-Body Dynamics, (2003) 153-170
S.N. Kuchnicki, H. Benaroya, Coupled Transverse and Axial Motion of a Compliant Structure in Response to Vortex-Shedding Loads, J Sound and Vibration, (2002) 257(5), 903-929
S. Han, H. Benaroya, Comparison of Linear and Nonlinear Responses of a Compliant Tower to Random Wave Forces, Chaos, Solitons & Fractals, 14(2002) 269-291
S.N. Kuchnicki, H. Benaroya, A Parametric Study of a Flexible Ocean Tower, Chaos, Solitons & Fractals, 14(2002) 183-201
S. Han and H. Benaroya, Vibration of a Compliant Tower in Three Dimensions, J Sound and Vibration, (2002) 250(4) 675-709
H. Benaroya, T. Wei, Hamilton’s Principle for Viscous External Fluid-Structure Interaction, J Sound and Vibration, (2000) 238(1) 113-145
S. Han, H. Benaroya, Nonlinear Coupled Transverse and Axial Vibration of a Compliant Structure 2: Forced Vibration, J Sound and Vibration, (2000) 237(5) 875-900
S. Han, H. Benaroya, Nonlinear Coupled Transverse and Axial Vibration of a Compliant Structure I: Formulation and Free Vibration, J Sound and Vibration, (2000) 237(5) 837-873
R. Adrezin, H. Benaroya, Nonlinear Stochastic Dynamics of Tension Leg Platforms, J Sound and Vibration, (1999) 220(1), 27-65
R. Adrezin, H. Benaroya, Response of a Tension Leg Platform to Stochastic Wave Forces, J Prob. Eng. Mech., Vol. 14 (1999), 3-17
P Bar Avi and H Benaroya, Stochastic Response of a Two DOF Articulated Tower, Int. J Nonlinear Mechanics, Vol. 32, No.4, pp. 639-655, 1997
R Adrezin, P Bar-Avi, H Benaroya, Dynamic Response of Compliant Offshore Structures - Review, Aerospace Engineering, Vol. 9, No.4, Oct 1996, 114-131
P Bar Avi, H Benaroya, Planar Motion of an Articulated Tower, J Sound and Vibration, (1996) 198(1), 27-50
P Bar Avi, H Benaroya, Response of a Two DOF Articulated Tower to Different Environmental Conditions, Int. J Nonlinear Mechanics, Vol. 31, No. 5, pp.717-741, 1996
P Bar Avi, H Benaroya, Nonlinear Dynamics of an Articulated Tower in the Ocean, J of Sound and Vibration, (1996) 190(1) 77-103
H Benaroya, J A Lepore, Statistical Flow-Oscillator Modeling of Vortex-Shedding, Journal of Sound and Vibration, 86(2) 1983 159-179
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csXe Mission Statement
The focus of the Center for Structures in Extreme Environments is the study
of structures that are exemplary of the human spirit for exploration and
advancement - whether it be the exploration of space, the settlement of the
Moon and Mars, or pushing the frontiers of understanding and development of
the ocean - we are glad to be a part of a very exciting aspect of the human
adventure.
Full press release.
EVENT SCHEDULE
April 12, 2008
Rutgers Open House
May 5, 2008
Mechanical and Aerospace Senior Design Project Exhibition
May 21, 2008
University Commencement
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