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Standard Handbook for Civil Engineers
Overview
A revision of the classic reference covering all important principles and techniques needed by practicing civil engineers. The 5th Edition incorporates changes in design and construction practices, especially in design specifications for construction materials, buildings and bridges, safety and health concerns, and the most current codes changes including ACI, AISC, ASTM, NDS for wood structures, etc. The Handbook covers systems design, community and regional planning, the latest design methods for buildings, airports, highways, tunnels and bridges. It includes sections on construction equipment, construction management, materials, specifications, structural theory, geotechnical engineering, wood, concrete, steel design and construction.
A revision of the classic reference covering all important principles and techniques needed by practicing civil engineers. The 5th Edition incorporates changes in design and construction practices, especially in design specifications for construction materials, buildings and bridges, safety and health concerns, and the most current codes changes including ACI, AISC, ASTM, NDS for wood structures, etc. The Handbook covers systems design, community and regional planning, the latest design methods for buildings, airports, highways, tunnels and bridges. It includes sections on construction equipment, construction management, materials, specifications, structural theory, geotechnical engineering, wood, concrete, steel design and construction.
Table of contents
Contributors
About the Editors
Preface
Section 1. Systems Design (Jonathan T. Ricketts)
Section 2. Design Management (Frank Muller and Jay Gewirtzman)
Section 3. Specifications (Ted E. Robbins)
Section 4. Construction Management (Jonathan T. Ricketts)
Section 5. Construction Materials (Ruth T. Brantley and L. Reed Brantley)
Section 6. Structural Theory (Aktar Tamboli, Mohsin Ahmed, and Michael Xing)
Section 7. Geotechnical Engineering (Mohamad H. Hussein and Jerry A. DiMaggio)
Section 8. Concrete Design and Construction (Anne M. Ellis, S.K. Ghosh, and David A. Fanella) Section 9. Structural Steel Design and Construction (Roger L. Brockenbrough)
Section 10. Cold-Formed-Steel Design and Construction (Don S. Wolford and Wei-Wen Yu) Section 11. Wood Design and Construction (Maurice J. Rhude)
Section 12. Surveying (Jonathan T. Ricketts)
Section 13. Earthwork (Charles H. Sain and G. William Quinby)
Section 14. Community and Regional Planning (William N. Lane)
Section 15. Building Engineering (M. Myint Lwin)
Section 16. Highway Engineering (Richard Garrabrant)
Section 17. Bridge Engineering (Thomas A. Ostrom and Steven L. Mellon)
Section 18. Airport Engineering (Richard Harding)
Section 19. Rail-Transportation Engineering (Roger S. Boraas)
Section 20. Tunnel Engineering (Lars Christian F. Ingerslev and Arthur G. Bendelius)
Section 21. Water Resources Engineering (M. Kent Loftin)
Section 22. Environmental Engineering (G. Raymond Schulte and Thomas E. Wilson)
Section 23. Coastal and Port Engineering (Scott L. Douglass, Robert A. Nathan, and Jeffrey D. Malyszek)
APPENDIX. FACTORS FOR CONVERSION TO THE METRIC SYSTEM (SI) OF UNITS (Frederick S. Merritt)
INDEX
ACI 318R-05 - Building code requirements for structural concrete (ACI 318-05) and Commentary (ACI 318R-05)
The code portion of this document covers the design and construction of structural concrete used in buildings and where applicable in nonbuilding structures.
Among the subjects covered are: drawings and specifications; inspection; materials; durability requirements; concrete quality, mixing, and placing; formwork; embedded pipes; construction joints; reinforcement details; analysis and design; strength and serviceability; flexural and axial loads; shear and torsion; development and splices of reinforce-ment; slab systems; walls; footings; precast concrete; composite flexural members; prestressed concrete; shells and folded plate members; strength evaluation of existing structures; special provisions for seismic design; structural plain concrete; strut-and-tie modeling in Appendix A; alternative design provisions in Appendix B; alternative load and strength-reduction factors in Appendix C; and anchoring to concrete in Appendix D.
The quality and testing of materials used in construction are covered by reference to the appropriate ASTM standard specifications. Welding of reinforcement is covered by reference to the appropriate ANSI/AWS standard.
Uses of the code include adoption by reference in general building codes, and earlier editions have been widely used in this manner. The code is written in a format that allows such reference without change to its language. Therefore, background details or suggestions for carrying out the requirements or intent of the code portion cannot be included. The commentary is provided for this purpose. Some of the considerations of the committee in developing the code portion are
discussed within the commentary, with emphasis given to the explanation of new or revised provisions. Much of the research data referenced in preparing the code is cited for the user desiring to study individual questions in greater detail. Other documents that provide suggestions for carrying out the requirements of the code are also cited.
Among the subjects covered are: drawings and specifications; inspection; materials; durability requirements; concrete quality, mixing, and placing; formwork; embedded pipes; construction joints; reinforcement details; analysis and design; strength and serviceability; flexural and axial loads; shear and torsion; development and splices of reinforce-ment; slab systems; walls; footings; precast concrete; composite flexural members; prestressed concrete; shells and folded plate members; strength evaluation of existing structures; special provisions for seismic design; structural plain concrete; strut-and-tie modeling in Appendix A; alternative design provisions in Appendix B; alternative load and strength-reduction factors in Appendix C; and anchoring to concrete in Appendix D.
The quality and testing of materials used in construction are covered by reference to the appropriate ASTM standard specifications. Welding of reinforcement is covered by reference to the appropriate ANSI/AWS standard.
Uses of the code include adoption by reference in general building codes, and earlier editions have been widely used in this manner. The code is written in a format that allows such reference without change to its language. Therefore, background details or suggestions for carrying out the requirements or intent of the code portion cannot be included. The commentary is provided for this purpose. Some of the considerations of the committee in developing the code portion are
discussed within the commentary, with emphasis given to the explanation of new or revised provisions. Much of the research data referenced in preparing the code is cited for the user desiring to study individual questions in greater detail. Other documents that provide suggestions for carrying out the requirements of the code are also cited.
The Civil Engineering Handbook, 2nd Ed
PDF - 147 pages
CRC Press manages to have no less than 79(!) contributors to a 147 pages handbook. Anyhoo, the TOC:
Section I: Construction
Section II: Environmental Engineering
Section III: Geotechnical Engineering
Section IV: Hydraulic Engineering
Section V: Materials Engineering
Section VI: Structural Engineering
Section VII: Surveying Engineering
Section VIII: Transportation Engineering
Appendix: Mathematics, Symbols, and Physical Constants
Building Design And Construction Handbook 6th Ed
Edited by: Merritt, F.S.; Ricketts, J.T. © 2001 McGraw-Hill
Description: This book emphasizes the fundamental principles and their practical applications, providing detailed coverage of every significant step in the planning, design, and construction of all types of buildings.
International Building Code 2006
A large portion of the International Building Code deals with fire prevention. It differs from the related International Fire Code in that the IBC handles fire prevention in regards to construction and design and the fire code handles fire prevention in an on-going basis. For example, the building code would deal with location of exits with the fire code keeping exits unblocked. The building code also deals with access for the disabled and structural stability (including earthquakes). The International Building Code applies to all structures in areas where it is adopted, except for one and two family dwellings (see International Residential Code).Parts of the code reference other codes including the International Plumbing Code, the International Mechanical Code, the National Electric Code, and various National Fire Protection Association standards. Therefore, if a municipality adopts the International Building Code, it also adopts those parts of other codes referenced by the IBC. Often, the plumbing, mechanical, and electric codes are adopted along with the building code.
The code book itself (2000 edition) totals over 700 pages and chapters include:
- Building occupancy classifications
- Building heights and areas
- Interior finishes
- Foundation, wall, and roof construction
- Fire protection systems (sprinkler system requirements and design)
- Materials used in construction
- Elevators and escalators
- Already existing structures
- Means of egress (see below)
Detail more....
Handbook of Thermal Analysis of Construction Materials
By: Ramachandran, V.S.; Paroli, Ralph M.; Beaudoin, James J.; Delgado, Ana H. © 2002 William Andrew Publishing/Noyes
Description: This book is a valuable addition to the literature in construction science and technology and should be useful to the material scientist, technologist, student, engineer, analytical chemist, architect, manufacturer, and user of construction materials.
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