Bridge engineering (Record no. 71770)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 07859 a2200169 4500 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9780070656956 |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 624.2 |
| Item number | PON |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Ponnuswamy, S. |
| 245 ## - TITLE STATEMENT | |
| Title | Bridge engineering |
| 250 ## - EDITION STATEMENT | |
| Edition statement | Ed.2 |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc | New Delhi |
| Name of publisher, distributor, etc | McGraw hill Education (India) Pvt. Ltd. |
| Date of publication, distribution, etc | 2013 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | xxx,747,ip. |
| 505 ## - FORMATTED CONTENTS NOTE | |
| Formatted contents note | Contents<br/>Preamble vii<br/>Foreword ix<br/>Preface to the second edition xi<br/>Preface to the first edition xiii<br/>Acknowledgements xix<br/>Copyright permissions xxi<br/>1. Introduction 1<br/>Definition<br/>History of development of bridges <br/>Classification of bridges<br/>Planning for a bridge<br/>Different stages of planning <br/>Preliminary/conceptual design<br/>Detailed design<br/>Summary<br/>Annexure 1.1 Some Notable Bridge Links in the World 24<br/>Annexure 1.2 Illustrations of some Notable Bridges 25<br/>2. Investigation for bridges and culverts 35<br/>Investigation for culverts and minor bridges<br/>Topographic details<br/>Catchments area map<br/>Hydrologic particulars<br/>Geo-technical details<br/>Seismology of the area<br/>Navigational requirements<br/>Construction resources<br/>Particulars of nearest bridges<br/>Traffic forecast<br/>Report and drawing<br/>Summary<br/>References<br/>3. Investigations for important bridges 61<br/>Factors for choice of ideal site<br/>Techno-economic feasibility (or preliminary) study<br/>Project report stage<br/>Drawings to accompany the project report<br/>Project report<br/>Summary<br/>References<br/>Annexure 3.1 Details for Model Studies Required for sitting a Bridge Across a Major and Important River <br/>4. Design flood discharge for bridges 76<br/>Introduction<br/>Contribution factors<br/>Methods of determination of design flood<br/>Unit hydrograph method<br/>Choice of method<br/>Foundation design discharge<br/>Summary<br/>References<br/>Annexure 4.1 Selected Flood Formulae Evolved Around the World<br/>Annexure 4.2 Heaviest Rainfall in One Hour at Various Important Rain Gauge Station in India<br/>Annexure 4.3 Values of Rugosity Coefficient n for Open Channels with Other than Coarse Bed Material <br/>Annexure 4.4 Case Study – Design Flood by Unit Hydrograph Method<br/>5. Linear waterway of bridges 108<br/>General<br/>Scour and depth of flow<br/>Afflux<br/>Calculation of waterway<br/>Summary<br/>References<br/>6. Choice of foundation for piers and abutments 132<br/>Types of bridge foundations<br/>Cost ratio<br/>Clearance<br/>Choice of foundation<br/>Open foundation<br/>Pile foundation<br/>Well foundation<br/>Block foundations<br/>Summary<br/>References<br/>7. Types of bridges and loading standards 146<br/>Classification of culverts and bridges<br/>Components of bridge structures<br/>Need for loading standards<br/>Loading requirements<br/>Railway loading standards<br/>Road bridge loadings<br/>Some comments<br/>Summary<br/>References<br/>8. Setting out for piers and abutments 202<br/>General<br/>Aim<br/>Setting out for minor bridges and culverts<br/>Setting out single span bridge<br/>Setting out multispan bridge<br/>Setting out for major/important bridges<br/>Summary<br/>References<br/>Annexure 8.1 Fixing Towers and Base Line Measurement for Brahmaputra Bridge by Survey of India<br/>9. Open foundation 215<br/>Open or shallow foundations<br/>Open excavation in dry condition<br/>Foundation below subsoil water<br/>Baling out water<br/>Cofferdams for deeper foundations<br/>Floating caisson process<br/>Structural forms<br/>Design consideration<br/>individual footing<br/>Design procedure and example<br/>Raft foundation<br/>Summary<br/>References<br/>10. Pile foundations 236<br/>General<br/>Spacing of piles<br/>Material for construction<br/>Soil friction factors<br/>Precast driven piles<br/>Design of pile foundation<br/>Load tests<br/>Strength of group piles<br/>Lateral resistance of piles<br/>Factor of safety<br/>Construction. Driven piles versus cast-in-situ piles<br/>Large diameter bored cast-in-situ piles<br/>Construction of bored piles<br/>Structural design of pile foundation<br/>Summary<br/>References<br/>11. Well foundation 302<br/>Types of wells<br/>Caissons<br/>Design of wells<br/>Sinking effort<br/>Material for steining<br/>Design of curb and cutting edge<br/>Construction<br/>Sinking of wells<br/>Some problems of open sinking<br/>Use of divers for sinking<br/>Pneumatic sinking<br/>Working of pneumatic equipment<br/>Rate of sinking<br/>Bottom plug<br/>Sand filling<br/>Top plug and well cap<br/>Summary<br/>References<br/>12. Well foundations 366<br/>case studies<br/>Design for a railway bridge<br/>Construction problems<br/>Formation of island in very deep channel: road-cum-river bridge across river godavari at4 rajahmundry<br/>Sinking through rock using divers<br/>Pneumatic sinking<br/>Case studies on 'tilting' corrections<br/>Combined foundations<br/>Summary<br/>References<br/>13. Piers and abutments 398<br/>Function<br/>Aesthetics<br/>Materials of construction<br/>Piers and abutments<br/>Wing walls<br/>Construction problems<br/>Summary<br/>References<br/>Annexure 13.1 Design of Pier<br/>14. Superstructure 412<br/>design aspects<br/>Historical development<br/>Types of bridges<br/>Choice of materials<br/>Design principles<br/>Design procedure for bridge superstructure<br/>Composite construction<br/>Box girders<br/>Continuous span girders<br/>References<br/>15. Superstructure-Construction 500<br/>construction<br/>Dependent factors<br/>Arch and slab bridges<br/>Steel girder bridges<br/>Site erection methods<br/>Suspension bridges<br/>Cable stayed bridges9<br/>Bearings<br/>Case studies<br/>Summary<br/>References<br/>Annexure 15.1 Rules for Prestressing Open Web Girder Spans<br/>Annexure 15.2 Longest Suspension Bridges<br/>Annexure 15.3. Long Cable Stayed Bridges<br/>16. Inspection of bridges 543<br/>General<br/>Necessity for inspection of bridges<br/>Inspection procedures in various countries<br/>Procedure for inspection<br/>Aspects of inspection<br/>Testing of bridges<br/>Criteria for assessment of safe load capacity<br/>Aids for bridge inspection and maintenance<br/>Summary<br/>References<br/>17. Maintenance of bridges 570<br/>substructure<br/>Foundation<br/>Substructure<br/>Repairs to leaning masonry<br/>Maintenance of arch superstructure<br/>Repairs to the concrete substructure<br/>Summary<br/>References<br/>18. Maintenance of superstructure 582<br/>girders<br/>General<br/>Steel<br/>Oiling and greasing of bearings<br/>Cracks in steel work<br/>Buckling and bending in members<br/>Loss of camber<br/>Repairs to steel structures<br/>Concrete girders<br/>Summary<br/>References<br/>Annexure 18.1 Metallishing Specification and Equipment Needed<br/>19. Rebuilding of bridges 594<br/>Why rebuild bridges<br/>Replacement<br/>Rebuilding of pier tops<br/>Replacement of girders (regirdering)<br/>Preliminary work<br/>Modus operandi of various methods<br/>Girder renewal with cranes<br/>Renewal of girders with gantries<br/>Enveloping method<br/>Floatation method<br/>Rebuilding over diversion<br/>Construction without temporary arrangements<br/>Summary<br/>References<br/>20. Construction management 617<br/>General<br/>Planning requirements<br/>Stages of execution<br/>Planning and control techniques<br/>Repairs and rebuilding bridges<br/>Monitoring and updating<br/>Summary<br/>References<br/>Annexure 20.1 Typical problems arising during project control<br/>21. Grade separators 635<br/>Planning<br/>Layouts for interchanges<br/>Detailed scheme preparation<br/>Design of the structure<br/>Summary<br/>References<br/>Annexure 21.1 Some example of Special Design Grade Separators<br/>22. River training and protection works 658<br/>Introduction<br/>Protection works for bridges with reduced waterway<br/>Design of guide bund<br/>a review<br/>Armouring of side slopes of guide bunds<br/>Apron protection<br/>Summary<br/>References<br/>23. Abbreviations, notations and bibliography 680<br/>Abbreviations<br/>Notations<br/>Additional references<br/>A. Appendix a: design flood estimation by frequency method 687<br/>B. Appendix b: design flood by unit hydrograph method-field application 691<br/>C. Appendix c: calculations for load distribution for concrete girders 702<br/>D. Appendix d: illustration of a box girder design 730<br/>E. Appendix e: miscellaneous data and tables for design 737<br/>Index<br/> |
| 890 ## - Country | |
| Country | India |
| 891 ## - Topic | |
| Topic | FT |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Collection code | Withdrawn status | Home library | Current library | Date acquired | Source of acquisition | Cost, normal purchase price | Total Checkouts | Full call number | Barcode | Date last seen | Date last borrowed | Cost, replacement price | Price effective from | Koha item type |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Dewey Decimal Classification | Faculty of Technology | CEPT Library | CEPT Library | 12/03/2024 | amazon.in | 600.00 | 1 | 624.2 PON | 025778 | 30/03/2024 | 24/03/2024 | 600.00 | 12/03/2024 | Book |