书籍详情
预应力混凝土分析与设计(英文版)
作者:田红旗
出版社:中南大学出版社
出版时间:2022-03-01
ISBN:9787548747833
定价:¥89.00
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内容简介
本书共设13章,包括预应力混凝土基本概念、预应力材料、施工工艺和锚固体系、分析与设计策略、预应力损失计算、预应力对结构效应分析、受弯构件应力分析、变形和裂缝计算与控制、受弯构件承载力、受弯构件设计、受拉与受压构件分析与设计、无粘结预应力混凝土分析与设计、体外预应力混凝土分析与设计等内容。全书围绕预应力混凝土知识体系,建立基本概念、归纳分析思路、阐述设计基本原理和设计方法,总结、剖析**国内外设计规范和标准及其运用,并介绍研究进展和高速铁路、公路预应力混凝土梁等工程设计成果。本书既可作为高等院校土木工程专业的教材,也可供研究生和土建工程技术人员参考使用。
作者简介
暂缺《预应力混凝土分析与设计(英文版)》作者简介
目录
Chapter 1 Basic Concepts of Prestressed Concrete
1.1 Basic concepts
1.2 The functions of prestress or prestressing force
1.3 Prestress level
1.4 Classification of prestressed concrete
1.5 Prestressed versus reinforced concrete
1.6 Concise history of prestressed concrete
References
Chapter 2 Prestressing Materials
2.1 Concrete
2.2 Prestressing tendons
References
Chapter 3 Prestressing Methods and Anchorage Systems
3.1 Prestressing methods
3.2 Pretensioning method
3.3 post-tensioning method
3.4 Anchorage system
3.5 Jacks for stretching tendons
3.6 Duct grouting and anchor sealing in post-tensioned concrete
References
Chapter 4 The Strategy of Analysis and Design
4.1 Knowledge system of prestressed concrete
4.2 Analysis of prestressed concrete structures
4.3 General issues for the design of prestressed concrete structures
References
Chapter 5 Calculation of Effective Stress in Prestressing tendons
5.1 Concept of effective stress in prestressing tendons
5.2 Effective stress in prestressing tendons immediately after transfer
5.3 Long-term prestress loss in prestressing tendons
5.4 Estimation of effective stress in simplified analysis and
preliminary design
References
Chapter 6 Effects of the Prestressing Force on the Structures
6.1 Equivalent loads of the prestressing force
6.2 Primary internal forces produced by the prestressing force
6.3 Secondary internal forces produced by the prestressing force
6.4 Linear transformation and concordant tendon
6.5 Redistribution of the prestress-caused moment due to creep
References
Chapter 7 Stress Analysis of Prestressed Concrete Flexural Members
7.1 Flexural behavior of a prestressed concrete member
7.2 Stress analysis before cracking
7
Stress analysis after cracking
7.4 Verification of crack resistance
7.5 Calculation and verification of fatigue stress
7.6 Analysis of anchorage zone of pretensioned members
7.7 Analysis of anchorage zone of post-tensioned structures
References
Chapter 8 Calculation and Control of Deformation and Crack
8.1 The significance of deformation and crack control
8.2 Calculation and control of deflection and rotation angle
8.3 Calculation and control of cracking
References
Chapter 9 Ultimate Bearing Capacity of the Flexural Members
9.1 General concepts of ultimate bearing capacity of the
flexural members
9.2 Flexural bearing capacity of the normal section
9.3 Shear bearing capacity of the oblique section
9.4 Flexural bearing capacity of the oblique section
9.5 Torsion bearing capacity in the beams
9.6 Bearing capacity of anchorage zone under local compression
References
Chapter 10 Design of Prestressed Concrete Flexural Structures
10.1 Outline for designing a prestressed concrete flexural structure
10.2 Durability design of prestressed concrete structures
10.3 Section design for prestressed concrete flexural structures
10.4 Area estimation for prestressing tendons
10.5 Selection and layout of prestressing tendons
10.6 Requirements for reinforcing steels in design
References
Chapter 11 Analysis and Design of Tension and Compression Members
11.1 Analysis and design of tension members
11.2 Analysis and design of compression members
References
Chapter 12 Analysis and Design of Unbonded Prestressed Concrete Flexural Structures 30
12.1 General concepts on unbonded prestressed concrete
flexural structures
12.2 Anchorage system for unbonded tendons
12.3 Flexural behavior of unbonded prestressed concrete structures
12.4 Calculation of stress in unbonded tendons
12.5 Bearing capacity of the unbonded prestressed concrete sections
12.6 Calculation and control of deflection and crack
References
Chapter 13 Analysis and Design of Externally Prestressed Concrete Structures
13.1 General concepts on ext
1.1 Basic concepts
1.2 The functions of prestress or prestressing force
1.3 Prestress level
1.4 Classification of prestressed concrete
1.5 Prestressed versus reinforced concrete
1.6 Concise history of prestressed concrete
References
Chapter 2 Prestressing Materials
2.1 Concrete
2.2 Prestressing tendons
References
Chapter 3 Prestressing Methods and Anchorage Systems
3.1 Prestressing methods
3.2 Pretensioning method
3.3 post-tensioning method
3.4 Anchorage system
3.5 Jacks for stretching tendons
3.6 Duct grouting and anchor sealing in post-tensioned concrete
References
Chapter 4 The Strategy of Analysis and Design
4.1 Knowledge system of prestressed concrete
4.2 Analysis of prestressed concrete structures
4.3 General issues for the design of prestressed concrete structures
References
Chapter 5 Calculation of Effective Stress in Prestressing tendons
5.1 Concept of effective stress in prestressing tendons
5.2 Effective stress in prestressing tendons immediately after transfer
5.3 Long-term prestress loss in prestressing tendons
5.4 Estimation of effective stress in simplified analysis and
preliminary design
References
Chapter 6 Effects of the Prestressing Force on the Structures
6.1 Equivalent loads of the prestressing force
6.2 Primary internal forces produced by the prestressing force
6.3 Secondary internal forces produced by the prestressing force
6.4 Linear transformation and concordant tendon
6.5 Redistribution of the prestress-caused moment due to creep
References
Chapter 7 Stress Analysis of Prestressed Concrete Flexural Members
7.1 Flexural behavior of a prestressed concrete member
7.2 Stress analysis before cracking
7
Stress analysis after cracking
7.4 Verification of crack resistance
7.5 Calculation and verification of fatigue stress
7.6 Analysis of anchorage zone of pretensioned members
7.7 Analysis of anchorage zone of post-tensioned structures
References
Chapter 8 Calculation and Control of Deformation and Crack
8.1 The significance of deformation and crack control
8.2 Calculation and control of deflection and rotation angle
8.3 Calculation and control of cracking
References
Chapter 9 Ultimate Bearing Capacity of the Flexural Members
9.1 General concepts of ultimate bearing capacity of the
flexural members
9.2 Flexural bearing capacity of the normal section
9.3 Shear bearing capacity of the oblique section
9.4 Flexural bearing capacity of the oblique section
9.5 Torsion bearing capacity in the beams
9.6 Bearing capacity of anchorage zone under local compression
References
Chapter 10 Design of Prestressed Concrete Flexural Structures
10.1 Outline for designing a prestressed concrete flexural structure
10.2 Durability design of prestressed concrete structures
10.3 Section design for prestressed concrete flexural structures
10.4 Area estimation for prestressing tendons
10.5 Selection and layout of prestressing tendons
10.6 Requirements for reinforcing steels in design
References
Chapter 11 Analysis and Design of Tension and Compression Members
11.1 Analysis and design of tension members
11.2 Analysis and design of compression members
References
Chapter 12 Analysis and Design of Unbonded Prestressed Concrete Flexural Structures 30
12.1 General concepts on unbonded prestressed concrete
flexural structures
12.2 Anchorage system for unbonded tendons
12.3 Flexural behavior of unbonded prestressed concrete structures
12.4 Calculation of stress in unbonded tendons
12.5 Bearing capacity of the unbonded prestressed concrete sections
12.6 Calculation and control of deflection and crack
References
Chapter 13 Analysis and Design of Externally Prestressed Concrete Structures
13.1 General concepts on ext
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