Real-time damage identification of hinge joints in multi-girder bridges using recursive least squares solution of the characteristic equation
Author:
Publisher
Elsevier BV
Subject
Civil and Structural Engineering
Reference36 articles.
1. Determining orders of modes sensitive to hinge joint damage in assembled hollow slab bridges;Zhang;J Bridge Eng,2022
2. Multi-level time-variant vulnerability assessment of deteriorating bridge networks with structural condition records;Lei;Eng Struct,2022
3. Relationship between shear-stress distribution and resulting acoustic-emission variation along concrete joints in prefabricated girder structures;Liu;Eng Struct,2019
4. Field investigation of ultra-high performance concrete shear key in an adjacent box-girder bridge;Hussein;Struct Infrastruct Eng,2019
5. Performance of full-depth shear keys in adjacent prestressed box beam bridges;Lall;Pci J,1998
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1. Theoretical study of extracting modal frequencies and hinge joint stiffness for thin-walled assembled multi-girder bridges from 3D vehicle;Thin-Walled Structures;2024-12
2. Stiffness-Based Evaluation of Hinge Joints in Prefabricated Assembled Multi-Girder Bridges under Operational Conditions;Sensors;2024-06-30
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