The nonlinear dynamic analysis of cable and membrane structures
is presented in this study. Attention is given to the nonlinearities
arising from large displacements, from nonlinear stress-strain
relationships and from nonconservative loadings.
The finite element method is used to model the cables and
membranes. Curvilinear geometries of the elements are...
The nonlinear dynamic analysis of cable and cable-large
body systems subject to both deterministic and non-deterministic
loading is presented in this study. Nonlinearities
occur due to large displacements, material nonlinearity,
lack of stiffness in compression, and the non-conservative
fluid loading.
A finite element model is used to model the cable...
A three dimensional finite element analysis is developed which
is capable of simulating the coupled static and dynamic behavior of
compliant ocean structures. Nonlinearities which result from large-deflection,
reduced or zero stiffness in compression, and the nonconservative
fluid loading are considered. The spatial variation of
fluid loading is also addressed....
A numerical calculation procedure for the hydrodynamic interference effects between large multiple structures interacting with
linear ocean waves is presented in this study. Viscous effects are
neglected and the hydrodynamic pressure forces are assumed to be
inertially dominated. A finite element method which incorporates
radiation boundary dampers is adopted to...
The time-domain simulation of wave-structure
interactions using the finite element method is presented
in this study. Combined initial and boundary value
problems for diffraction and radiation of waves by large
structures are posed. Linearized free surface boundary
conditions are used, but motions of the structural
boundaries compared to the wave...
Cables used in the ocean are often constructed of helically wound
wires or strands. Tension in the cable induces torque and/or rotation
about its longitudinal axis. A method is presented to determine the
tension, torque, location and angular orientation of points on the
cable centerline, using a shooting method algorithm...
Statistically-based estimation techniques are presented
in this study. These techniques incorporate structural test
data to improve finite element models used for dynamic
analysis.
Methods are developed to identify optimum values of the
parameters of finite element models describing structures.
The parameters which may be identified are : element area,
mass...
A time-domain model was developed to predict the fluid/structure
interaction of a three-dimensional deformable body in a fluid domain subject to
long-crested finite amplitude waves. These nonlinear waves induce transient
motion in the body. In turn, the interaction of the body with the waves modifies
the wave field, causing additional...