CSAR Seminar
SPEAKER: Renfu Li, Millennium Dynamics Co., Atlanta
TITLE:
Simulation of Lamb Wave Propagation in Structures with Damage by
Parallel Hybrid FD and Singular FE Method
DATE: Wednesday, September 27, 2006
TIME: 12:00 Noon
PLACE: 2240 DCL
1304 W. Springfield Ave., Urbana, IL
ABSTRACT
The simulation of wave propagation in bounded plate-like structures
with damage is investigated by a parallel hybrid finite difference (FD)
and singular finite element (FE) approach. The geometric scales of the
plate are considered to have finite thickness in one direction, (z) and
bounded length in the other two directions, (x, y). The conditions for
the separation forms to the displacements induced by the wave motion
are derived, reducing the 3D problems to 2D ones. Then a combination
of 2D FDM and 2D FEM is employed: the FD scheme is used to find the
solution in the body as a whole, while singular FE is used to advance
the field variables around the crack tip. The whole computational
domain is partitioned into N blocks and assigned to N processes: one
process is responsible for the computation of singular finite element,
the other processes are responsible for computations of the finite
difference method. The procedure can improve the efficiency of the
computation and avoid computing the derivative across a singularity
around the crack tip. The method was implemented using C++ and MPI.
Dr. Li will also discuss some of his other work, such as a unified
dislocation-based approach to solve thermal interface
crack/delamination and its branching problem in dissimilar anisotropic
conventional/smart bi-materials, modeling face-core de-bonding by
cohesive elements, spectral element method for damage detection, and
non-local continuum elastic shell models for nano-composites.
BIOGRAPHY
Dr. Li graduated with his Ph.D. degree from the school of Aerospace
Engineering of the Georgia Institute of Technology in December of
2004. In his Ph.D. thesis, Dr. Li addressed the interface
thermal-mechanical failure modes for dissimilar anisotropic bimaterial
media based on dislocation theory and complex analysis. After his
graduation, Dr. Li worked as a post-doctoral fellow at Georgia Tech for
one year, and is now a research scientist and project director at the
center for aerospace structural health monitoring of Millennium
Dynamics Co. in Atlanta, Georgia. Dr. Li also holds M.S. degrees in
Mathematics and in Computer Science. His research interests include
fracture/damage mechanics, structural dynamics, nano-mechanics,
structural health monitoring, and computational mechanics. He has
reviewed more than 20 papers for journals such as Journal of Applied
Mechanics, International Journal of Non-linear Mechanics, International
Journal of Nano-mechanics, International Journal of Solids and
Structures, etc. Georgia Tech honored him with the Luther Long Award
in 2005.