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混凝土结构基本原理(双语版)
作者:刘立新 主编
出版社:武汉理工大学出版社
出版时间:2004-07-01
ISBN:9787562921103
定价:¥32.00
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内容简介
主要内容This book is based on the newly reviewed code in China “Code for design of concrete structure” (GB50010—2002) and the teaching program for civil engineering. It containts:mechanical properties of reinforced concrete materials,basic principles for the design of reinforced concrete structures,flexural strength of members,shear strength of members,torsional strength of members,compressive strength of members,tensile strength of members,crack and deflection control of reinforced concrete members and prestressed concrete members. The velevant introduction in Chinese is attached at the end of the book.The book can not only be served as bilingual textbook of “Concrete Structural Fundamentals” for university and college students of civil engineering,but book may be also served as a reference for technicians,researchers and foreign students of civil engineering. 本书目录Chapter 1 Introduction1.1Basic Concepts and Characteristics of Reinforced Concrete1.2Historical Development of Concrete Structure1.3Special Features of the CourseChapter 2 Mechanical Properties of Reinforced Concrete Materials2.1Steel Reinforcement2.2Concrete2.3Bond Between Concrete and ReinforcementChapter 3Basic Principles for the Design of Reinforced Concrete Structures3.1Introduction to the Limit State Design3.2Analysis of Structural Resistance3.3The Current Chinese Code PracticeChapter 4Flexural Strength of Members4.1Introduction4.2Experimental Phenomena of Reinforced Concrete Beams under Flexure4.3Basic Assumptions4.4The Equivalent Stress Block4.5Balanced Section4.6Analysis of a Singly Reinforced Rectangular Beam4.7Analysis of Doubly Reinforced Rectangular Beams4.8Analysis of T-section and Ⅰ-section Beams4.9Detailing Requirements for SectionsChapter 5Shear Strength of Members5.1Introduction5.2The Mechanism of Shear Resistance in Reinforced Concrete Beams without Web Reinforcement5.3The Mechanism of Shear Resistance in Reinforced Concrete Beams with Web Reinforcement5.4Factors Affecting the Strength of Diagonal Section5.5Strength Calculation Methods of Members under Shear5.6Shear Reinforcement Design Procedures5.7Detailing Requirements for ReinforcementChapter 6Torsional Strength of Members6.1Introduction6.2The Cracking Torque Tcr6.3Ultimate Strength of Members with Pure Torsion6.4Strength of Members under Combined Torsion and Shear6.5Strength of Members under Combined Torsion,Shear and Flexure6.6Detailing Requirements for Members under Shear and TorsionChapter 7Compressive Strength of Members7.1Introduction7.2Strength of Axially Loaded Members7.3Strength of Eccentrically Loaded Members7.4Biaxial Eccentrically Loaded Members7.5Shear Strength of Member with Compression7.6Detailing Requirements for Compression MembersChapter 8Tensile Strength of Members8.1Introduction8.2Strength of Members with Axial Tension8.3Strength of Members with Eccentric Tension8.4Shear Strength of Members with TensionChapter 9Crack and Deflection Control of Reinforced Concrete Members9.1Introduction9.2Cracking Strength of a Member9.3Control of Crack Width9.4Deflection of a MemberChapter 10Prestressed Concrete Members10.1Basic Concept of Prestressing10.2Method of Prestressing Concrete10.3Materials of Prestressed Concrete10.4The Control Stress and the Losses of Prestress10.5Transmission Length of Prestress10.6Local Bearing of Concrete under Anchorage10.7Prestressed Concrete Axial Tension Members10.8Prestressed Concrete Bending MembersAppendixReference《混凝土结构基本原理》中文说明1绪论2钢筋混凝土材料的力学性能3钢筋混凝土结构设计的基本原则4构件的受弯承载力5构件的受剪承载力6构件的受扭承载力7构件的受压承载力8构件的受拉承载力9钢筋混凝土构件裂缝与变形控制10预应力混凝土构件
作者简介
暂缺《混凝土结构基本原理(双语版)》作者简介
目录
Chapter 1 Introduction
1.1 Basic Concepts and Characteristics of Reinforced Concrete
1.2 Historical Development of Concrete Structure
1.3 Special Features of the Course
Chapter 2 Mechanical Properties of Reinforced Concrete Materials
2.1 Steel Reinforcement
2.2 Concrete
2.3 Bond Between Concrete and Reinforcement
Chapter 3 Basic Principles for the Design of Reinforced Concrete Structures
3.1 Introduction to the Limit State Design
3.2 Analysis of Structural Resistance
3.3 The Current Chinese Code Practice
Chapter 4 Flexural Strength of Members
4.1 Introduction
4.2 Experimental Phenomena of Reinforced Concrete Beams under Flexure
4.3 Basic Assumptions
4.4 The Equivalent Stress Block
4.5 Balanced Section
4.6 Analysis of a Singly Reinforced Rectangular Beam
4.7 Analysis of Doubly Reinforced Rectangular Beams
4.8 Analysis of T-section and Ⅰ-section Beams
4.9 Detailing Requirements for Sections
Chapter 5 Shear Strength of Members
5.1 Introduction
5.2 The Mechanism of Shear Resistance in Reinforced Concrete Beams without Web Reinforcement
5.3 The Mechanism of Shear Resistance in Reinforced Concrete Beams with Web Rei nforcement
5.4 Factors Affecting the Strength of Diagonal Section
5.5 Strength Calculation Methods of Members under Shear
5.6 Shear Reinforcement Design Procedures
5.7 Detailing Requirements for Reinforcement
Chapter 6 Torsional Strength of Members
6.1 Introduction
6.2 The Cracking Torque Tcr
6.3 Ultimate Strength of Members with Pure Torsion
6.4 Strength of Members under Combined Torsion and Shear
6.5 Strength of Members under Combined Torsion,Shear and Flexure
6.6 Detailing Requirements for Members under Shear and Torsion
Chapter 7 Compressive Strength of Members
7.1 Introduction
7.2 Strength of Axially Loaded Members
7.3 Strength of Eccentrically Loaded Members
7.4 Biaxial Eccentrically Loaded Members
7.5 Shear Strength of Member with Compression
7.6 Detailing Requirements for Compression Members
Chapter 8 Tensile Strength of Members
8.1 Introduction
8.2 Strength of Members with Axial Tension
8.3 Strength of Members with Eccentric Tension
8.4 Shear Strength of Members with Tension
Chapter 9 Crack and Deflection Control of Reinforced Concrete Members
9.1 Introduction
9.2 Cracking Strength of a Member
9.3 Control of Crack Width
9.4 Deflection of a Member
Chapter 10 Prestressed Concrete Members
10.1 Basic Concept of Prestressing
10.2 Method of Prestressing Concrete
10.3 Materials of Prestressed Concrete
10.4 The Control Stress and the Losses of Prestress
10.5 Transmission Length of Prestress
10.6 Local Bearing of Concrete under Anchorage
10.7 Prestressed Concrete Axial Tension Members
10.8 Prestressed Concrete Bending Members
Appendix
Reference
《混凝土结构基本原理》中文说明
1 绪论
2 钢筋混凝土材料的力学性能
3 钢筋混凝土结构设计的基本原则
4 构件的受弯承载力
5 构件的受剪承载力
6 构件的受扭承载力
7 构件的受压承载力
8 构件的受拉承载力
9 钢筋混凝土构件裂缝与变形控制
10 预应力混凝土构件
1.1 Basic Concepts and Characteristics of Reinforced Concrete
1.2 Historical Development of Concrete Structure
1.3 Special Features of the Course
Chapter 2 Mechanical Properties of Reinforced Concrete Materials
2.1 Steel Reinforcement
2.2 Concrete
2.3 Bond Between Concrete and Reinforcement
Chapter 3 Basic Principles for the Design of Reinforced Concrete Structures
3.1 Introduction to the Limit State Design
3.2 Analysis of Structural Resistance
3.3 The Current Chinese Code Practice
Chapter 4 Flexural Strength of Members
4.1 Introduction
4.2 Experimental Phenomena of Reinforced Concrete Beams under Flexure
4.3 Basic Assumptions
4.4 The Equivalent Stress Block
4.5 Balanced Section
4.6 Analysis of a Singly Reinforced Rectangular Beam
4.7 Analysis of Doubly Reinforced Rectangular Beams
4.8 Analysis of T-section and Ⅰ-section Beams
4.9 Detailing Requirements for Sections
Chapter 5 Shear Strength of Members
5.1 Introduction
5.2 The Mechanism of Shear Resistance in Reinforced Concrete Beams without Web Reinforcement
5.3 The Mechanism of Shear Resistance in Reinforced Concrete Beams with Web Rei nforcement
5.4 Factors Affecting the Strength of Diagonal Section
5.5 Strength Calculation Methods of Members under Shear
5.6 Shear Reinforcement Design Procedures
5.7 Detailing Requirements for Reinforcement
Chapter 6 Torsional Strength of Members
6.1 Introduction
6.2 The Cracking Torque Tcr
6.3 Ultimate Strength of Members with Pure Torsion
6.4 Strength of Members under Combined Torsion and Shear
6.5 Strength of Members under Combined Torsion,Shear and Flexure
6.6 Detailing Requirements for Members under Shear and Torsion
Chapter 7 Compressive Strength of Members
7.1 Introduction
7.2 Strength of Axially Loaded Members
7.3 Strength of Eccentrically Loaded Members
7.4 Biaxial Eccentrically Loaded Members
7.5 Shear Strength of Member with Compression
7.6 Detailing Requirements for Compression Members
Chapter 8 Tensile Strength of Members
8.1 Introduction
8.2 Strength of Members with Axial Tension
8.3 Strength of Members with Eccentric Tension
8.4 Shear Strength of Members with Tension
Chapter 9 Crack and Deflection Control of Reinforced Concrete Members
9.1 Introduction
9.2 Cracking Strength of a Member
9.3 Control of Crack Width
9.4 Deflection of a Member
Chapter 10 Prestressed Concrete Members
10.1 Basic Concept of Prestressing
10.2 Method of Prestressing Concrete
10.3 Materials of Prestressed Concrete
10.4 The Control Stress and the Losses of Prestress
10.5 Transmission Length of Prestress
10.6 Local Bearing of Concrete under Anchorage
10.7 Prestressed Concrete Axial Tension Members
10.8 Prestressed Concrete Bending Members
Appendix
Reference
《混凝土结构基本原理》中文说明
1 绪论
2 钢筋混凝土材料的力学性能
3 钢筋混凝土结构设计的基本原则
4 构件的受弯承载力
5 构件的受剪承载力
6 构件的受扭承载力
7 构件的受压承载力
8 构件的受拉承载力
9 钢筋混凝土构件裂缝与变形控制
10 预应力混凝土构件
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