Risk-Based Bridge Engineering Proceedings of the 10th New York City Bridge Conference, August 26-27, 2019, New York City, USA
Coordonnateur : Mahmoud Khaled
Risk-based engineering is essential for the efficient asset management and safe operation of bridges. A risk-based asset management strategy couples risk management, standard work, reliability-based inspection and structural analysis, and condition-based maintenance to properly apply resources based on process criticality. This ensures that proper controls are put in place and reliability analysis is used to ensure continuous improvement. An effective risk-based management system includes an enterprise asset management or resource solution that properly catalogues asset attribute data, a functional hierarchy, criticality analysis, risk and failure analysis, control plans, reliability analysis and continuous improvement. Such efforts include periodic inspections, condition evaluations and prioritizing repairs accordingly.
This book contains select papers that were presented at the 10th New York City Bridge Conference, held on August 26-27, 2019. The volume is a valuable contribution to the state-of-the-art in bridge engineering.
Khaled Mahmoudis the Chief Bridge Engineer of BTC in New York City, USA. He holds a PhD in Engineering Mechanics from The City University of New York, USA. He has edited several volumes at CRC Press / Taylor and Francis and is editor-in-chief of the Journal Bridge Structures.
Date de parution : 03-2021
17.4x24.6 cm
Date de parution : 08-2019
17.4x24.6 cm
Thème de Risk-Based Bridge Engineering :
Mots-clés :
DOF; Non-ballasted Track; cable-supported and long span bridges; Suspension Bridge; asset management of bridges; Interior Girder; risk-based inspection; Time History Analysis; reliability-based analysis and evaluation; Bridge Girders; seismic analysis; design and retrofit; Live Load; bridge analysis and design; Box Girder; concrete segmental bridges; Main Cable; fatigue; brittle fracture and stress corrosion; Dead Load; design and monitoring of rail bridges; Stiffening Truss; bridge instrumentation and health monitoring; Pier Cap; bridge inspection; maintenance and rehabilitation; Bridge Deck; innovative bridge technology; BMS; movable bridges; Exterior Girders; bridge scour and hydraulics; Arch Ribs; bridge security; Construction Stage Analysis; bridge history and aesthetics; SHM; reliability analysis; Nonlinear Time History Analysis; quality control plans; Bridge Piers; structural analysis; Gusset; risk-based management system; Elastic Links; bridge engineering; Scouring Depth; ULS; Tacoma Narrows Bridge