Detecting Damage in a Beam by Static Tests
p.493
p.493
Strain-Based Damage Tolerance of Cylindrical Shells Subjected to Transient Loading and Its Application
p.501
p.501
An Experimental Rig for Damage Detection of Rolling Bearings
p.509
p.509
Identification of Discontinuities in Composite Rods and Beams Based on Lamb Wave Propagation
p.517
p.517
Application of Statistical Energy Analysis for Damage Detection in Spacecraft Structures
p.525
p.525
Experimental and Numerical Investigation of Wave Propagation in Composite Beam with an Additional Mass
p.533
p.533
A Combined Finite and Spectral Element Approach to Wave Scattering in a Cracked Beam: Modelling and Validation
p.541
p.541
Tracking of Cracks in Airplane Components Using Nonlinear Surface Wave Propagation Techniques
p.549
p.549
Wave Propagation Based Multi-Crack Identification in Beam Structures through Anti-Resonances Information
p.557
p.557
Application of Statistical Energy Analysis for Damage Detection in Spacecraft Structures
Abstract:
This paper analyses the applicability of the Statistical Energy Analysis (SEA) for detecting incipient damages in a typical spacecraft structure, as a stiffened panel. The damage on attachment element is investigated by analyzing its influence on the system characteristics. Because of incipient damage affects mainly on highest modes, rather than on lowest, the coupling loss factor between sub-elements can be used to detect and localize the damage.
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Info:
Periodical:
Key Engineering Materials (Volumes 293-294)
Pages:
525-532
Citation:
Online since:
September 2005
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