Wedge Modulation Principle Analysis of Two-Dimensional Small Angles Measurement System
p.676
p.676
An Improved Thermal-Electric-Displacement Coupled SPS FEM Simulation
p.681
p.681
Study of a New Stair-Climbing and Obstacle-Traversing Robot
p.686
p.686
Analysis of Casting Quality of a Fastening Baffle with Failure
p.691
p.691
Spectral Finite Element Modeling of Cylindrical Shells with Passive Constrained Layer Damping
p.695
p.695
Design and Implementation of the Supervisory Control Expert System for Dynamic Scheduling
p.700
p.700
Simulation and Analysis for Electromagnetic Shielding Performance of Magnesium
p.705
p.705
A Finite Element Analysis of the Residual Stress Distribution in the Interphase of Restoration-Tooth Structure
p.710
p.710
A New Control Strategy of Electric-Wheel Drive Vehicles
p.715
p.715
Spectral Finite Element Modeling of Cylindrical Shells with Passive Constrained Layer Damping
Abstract:
This paper presents a spectral finite element method for a cylindriacl shell with a passive constrained layer damping treatment. A thin shell theory based on Donnell-Mushtari-Vlasov assumption is employed. The equation of spectral unit and the method of determination of natural frequency and modal loss factor are presented.
You might also be interested in these eBooks
Info:
Periodical:
Advanced Materials Research (Volumes 211-212)
Pages:
695-699
Citation:
Online since:
February 2011
Authors:
Price:
Permissions: