Abstract
Bayesian operational modal analysis and modal strain energy are employed for determining the damage and looseness of bolted joints in beam structures under ambient excitation. With this ambient modal identification technique, mode shapes of a damaged beam structure with loosened bolted connections are obtained based on Bayesian theory. Then, the corresponding modal strain energy can be calculated based on the mode shapes. The modal strain energy of the structure with loosened bolted connections is compared with the theoretical one without bolted joints to define a damage index. This approach uses vibration-based nondestructive testing of locations and looseness of bolted joints in beam structures with different boundary conditions by first obtaining modal parameters from ambient vibration data. The damage index is then used to identify locations and looseness of bolted joints in beam structures with single or multiple bolted joints. Furthermore, the comparison between damage indexes due to different looseness levels of bolted connections demonstrates a qualitatively proportional relationship.
Highlights
Structures often suffer issues of accumulated damages due to changes in loadings and deterioration from age or environmental factors
The Bayesian operational modal analysis (BOMA) and modal strain energy (MSE) methods are used for identifying the locations and looseness of bolted joints in beam structures with different boundary conditions under ambient excitation
Modal parameters of beam structures with bolted joints before and after damages are determined by the BOMA method under ambient excitation
Summary
Structures often suffer issues of accumulated damages due to changes in loadings and deterioration from age or environmental factors. The BOMA and modal strain energy (MSE) methods are used for identifying the locations and looseness of bolted joints in beam structures with different boundary conditions under ambient excitation.
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