Bearings (1): System Layout

This video is part of The course: Design of Steel Bridges 1 - CES441 - 2021/2022 View the whole playlist here: https://www.youtube.com/watch?v=3p4g9zWL2sU&list=PL-TerQ8u_MHDYxI6eaL66EKcrJs-dZpJ4 ALSO Design of Prestressed Concrete and Bridges - CES421 - 2022/2023 View the whole playlist here: https://www.youtube.com/playlist?list=PL-TerQ8u_MHAiQeeq6w-dnH73h69JZhcc Notes: https://drive.google.com/file/d/1POKBqj7DnAybS3fta1QwdfQJJ1eBZMnc/view?usp=share_link References Prof. Amr Abdelrahman (2022), CES421 Bridges Lecture Notes Dr. Ali Hammad (2022), CES441 Bearing Lecture 9-10 Notes Stanton, J. F., & Roeder, C. W. (1982). Elastomeric bearings design, construction, and materials. NCHRP report, (248). HBRC (2015). Egyptian code of practice for planning, design, and construction of bridges, and upper intersections. ECP207/7. Roedr, C. W., Stanton, J. F., & Taylor, A. W. (1986). Failure Modes of Elastomeric Bearings and the Influence of Manufacturing Methods. Special Publication, 94, 279-296. Xiang, N., Goto, Y., Alam, M. S., & Li, J. (2021). Effect of bonding or unbonding on seismic behavior of bridge elastomeric bearings: lessons learned from past earthquakes in China and Japan and inspirations for future design. Advances in Bridge Engineering, 2(1), 1-17. Disclaimer: This video is made by a student. The subject described within is prone to error due to this student's own shortcomings. This video is a supplementary material, not a complete alternative to the course program provided by the university.