The aim of the book is to expose readers to the evolution of Performance-Based design (PBD) to date, its various forms, and applications. Various design philosophies and procedures have been described including modelling aspects and hazard considerations backed by examples.
The aim of the book is to expose readers to the evolution of Performance-Based design (PBD) to date, its various forms, and applications. Various design philosophies and procedures have been described including modelling aspects and hazard considerations backed by examples.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Satyabrata Choudhury is retired Professor of the Department of Civil Engineering, NIT Silchar, India. He had been a faculty of this institute since 1983, first as Lecturer and then as Assistant Professor, and finally as Professor and completed 40 years of service at retirement in January 2023. Prof. Choudhury obtained his Bachelor's degree in Civil Engineering from REC Silchar (now NIT Silchar), India. He obtained his master's degree in Structural Engineering from IIT Kharagpur, and Ph.D. in Earthquake Engineering from IIT Roorkee. He has served in various administrative positions in the institute including Head of the Department, Dean (P&D), Coordinator of various activities. He has received various awards including President of India's prize, Dr. Jai Krishna Gold medal (two times), Institution prize (IEI), etc. He has taught subjects like Performance-Based Seismic Design, Structural Dynamics, Concrete and Steel design at PG and UG level. His area of research is Performance-based seismic design. Prof. Choudhury is a guest editor of Practice Periodical on Structural Design and Construction, ASCE. He has 45 papers in peer-reviewed journals, and a number of papers in international and national conferences. He has supervised about 60 M.Tech. dissertations, produced 7 Ph.D. and working with another 4 Ph.D. scholars. He was Chairperson of two international conferences and one national conference. He has evolved a new design methodology named Unified performance-based design (UPBD) which accommodates both drift and performance level as target design objectives. This method also provides member sizes.
Inhaltsangabe
1. Force-Based Design and its Limitations. 2. Introduction To Performance-Based Design. 3. Hazard Considerations. 4. Modelling Aspects. 5. Performance Criteria and Performance Levels. 6. Analysis for the Evaluation of Structures. 7. Direct Displacement-Based Design of RC Frame Buildings. 8. DDBD For Dual System. 9. Unified Performance-Based Design of RC Frame Buildings. 10. Unified Performance-Based Design of RC Dual System. 11. UPBD for Steel Frame Buildings. 12. Effect of Infill. 13. DDBD of RC Frame Buildings with Viscous Dampers. 14. Displacement-Based Design for Bridge Piers. 15. UPBD for Bridge Piers. 16. Energy Dissipating Devices. 17. Tuned Liquid Damper. 18. Tuned Mass Dampers. 19. Seismic Safety of OFCs. 20. Miscellaneous Topics.
