Design of Concrete Structures 14/e In SI Units
售價
$
1,150
- 一般書籍
- ISBN:9780071311397
- 作者:Arthur H. Nilson, David Darwin, Charles W. Dolan
- 版次:14
- 年份:2011
- 出版商:McGraw-Hill
- 頁數/規格:795頁/平裝單色
書籍介紹
本書特色
目錄
Description
The 14th edition of the classic text, Design of Concrete Structures, is completely revised using the newly released 2008 ACI (American Concrete Institute) Code. This new edition has the same dual objectives as the previous editions; first to establish a firm understanding of the behavior of structural concrete, then to develop proficiency in the methods used in current design practice.
Design of Concrete Structures covers the behavior and design aspects of concrete and provides updated examples and homework problems. New material on slender columns, seismic design, anchorage using headed deformed bars, and reinforcing slabs for shear using headed studs has been added. The notation has been thouroughly updated to match changes in the ACI Code.
The text also presents the basic mechanics of structural concrete and methods for the design of individual members for bending, shear, torsion, and axial force, and provides detail in the various types of structural systems applications, including an extensive presentation of slabs, footings, foundations, and retaining walls.
The 14th edition of the classic text, Design of Concrete Structures, is completely revised using the newly released 2008 ACI (American Concrete Institute) Code. This new edition has the same dual objectives as the previous editions; first to establish a firm understanding of the behavior of structural concrete, then to develop proficiency in the methods used in current design practice.
Design of Concrete Structures covers the behavior and design aspects of concrete and provides updated examples and homework problems. New material on slender columns, seismic design, anchorage using headed deformed bars, and reinforcing slabs for shear using headed studs has been added. The notation has been thouroughly updated to match changes in the ACI Code.
The text also presents the basic mechanics of structural concrete and methods for the design of individual members for bending, shear, torsion, and axial force, and provides detail in the various types of structural systems applications, including an extensive presentation of slabs, footings, foundations, and retaining walls.
Features
- Coverage updated to match ACI 318-08.
- Expanded presentation and enhanced example problems in Chapter 3 on Flexural Analysis and Design.
- New homework problem sets.
- Updated modified compression theory method of shear design from the AASHTO LRFD Bridge Design Specifications and modified shear friction design procedures from the ACI Code added to Chapter 4.
- Expanded coverage on bond and development of reinforcement using headed deformed bars in Chapter 5.
- Slender column design requirements revised and updated in Chapter 9.3
- Guidance on preliminary design and guidelines for proportioning members in Chapter 12.
- Updated design procedures for prestressed concrete in Chapter 19.
- Expanded description of loading criteria and description of new design requirements for seismic design in Chapter 20.
- Text features applications that reflect the authors' practical experience.
Table of Contents
1 Introduction
2 Materials
3 Flexural Analysis and Design of Beams
4 Shear and Diagonal Tension in Beams
5 Bond, Anchorage, and Development Length
6 Serviceability
7 Analysis and Design for Torsion
8 Short Columns
9 Slender Columns
10 Strut-and-Tie Models
11 Design of Reinforcement at Joints
12 Analysis of Indeterminate Beams and Frames
13 Analysis and Design of Slabs
14 Yield Line Analysis for Slabs
15 Strip Method for Slabs
16 Footings and Foundations
17 Retaining Walls
18 Concrete Building Systems
19 Prestressed Concrete
20 Seismic Design
1 Introduction
2 Materials
3 Flexural Analysis and Design of Beams
4 Shear and Diagonal Tension in Beams
5 Bond, Anchorage, and Development Length
6 Serviceability
7 Analysis and Design for Torsion
8 Short Columns
9 Slender Columns
10 Strut-and-Tie Models
11 Design of Reinforcement at Joints
12 Analysis of Indeterminate Beams and Frames
13 Analysis and Design of Slabs
14 Yield Line Analysis for Slabs
15 Strip Method for Slabs
16 Footings and Foundations
17 Retaining Walls
18 Concrete Building Systems
19 Prestressed Concrete
20 Seismic Design
