耐久性设计 Durability design
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目录
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1 绪论Introduction
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1.1 前言Preface
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1.2 钢筋混凝土结构基本概念Fundermental Concept of Reinforced Concrete Structures
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1.2.1 素混凝土梁破坏实验
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1.2.2 钢筋混凝土梁破坏实验
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1.3 钢筋混凝土发展历史Historical development of reinforced concrete
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1.4 本课程学习特点Special features of this course
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2 钢筋混凝土用材料性能Mechanical Properties of Reinforced Concrete Materials
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2.1 钢筋Steel
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2.1.1 测验
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2.2 混凝土Concrete
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2.2.1 立方体抗压强度试验录相
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2.2.2 轴心受压强度试验录相
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2.2.3 轴心受拉强度试验录相
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2.2.4 双向复合受力强度
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2.2.5 应力应变曲线试验录相
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2.2.6 测验
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2.3 钢筋和混凝土的粘结性能Bond between Concrete and Reinforcement
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3 钢筋混凝土结构设计方法Basic principles for the design of reinforced concrete structures
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3.1 结构的可靠度Reliability Degrees of Structures
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3.2 荷载和材料强度Loads snd Material Strength
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3.3 极限状态设计法Design Methods of Limit States
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3.4 极限状态设计表达式Design Equations of Limit State
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4 钢筋混凝土轴心受力构件正截面承载力计算 Strength of Reinforced Concrete Axially Loaded Members
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4.1 概述Introduction
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4.2 轴心受拉构件正截面承载力计算Strength of Reinforced Concrete Axially Tensile Members
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4.3 轴心受压构件正截面承载力计算 Strength of Reinforced Concrete Axially Compressive Members
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4.3.1 配普通箍筋的轴心受压构件Axially Compression Members with Tied Stirrups
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4.3.2 配螺旋箍筋的轴心受压构件Aixally Compression Members with Spiral Stirrup
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5 5 受弯构件正截面承载力计算Strength of Reinforced Concrete Flexural Members
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5.1 概述Introduction
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5.2 受弯构件正截面的受力特性Risistance Feature of Normal Section of Flexural Members
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5.2.1 配筋率对受弯构件破坏特征的影响
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5.2.2 适筋受弯构件截面破坏的几个阶段
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5.3 受弯构件正截面承载力计算Strength of Flexural Members
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5.3.1 基本假定 Basic Assumption
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5.3.2 单筋矩形截面正截面承载力计算Strength of Singular Reinforced Rectangular Sections
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5.3.3 双筋矩形截面承载力计算Strength of doubly reinforced rectangular sections
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5.3.4 T形截面承载力计算Strength of reinforced T-sections
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5.3.5 深受弯构件正截面承载力Flexural strength of deep beam
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5.3.6 构造要求Detailing requirments
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6 6 受弯构件斜截面承载力计算Strength of Reinforced Concrete Members in shear
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6.1 概述 Introduction
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6.1.1 无腹筋梁斜压破坏试验录相
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6.1.2 无腹筋梁剪压试验录相
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6.1.3 无腹筋梁斜拉试验录相
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6.1.4 有腹筋梁斜拉破坏试验录相
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6.1.5 有腹筋梁剪压破坏试验录相
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6.1.6 有腹筋梁斜压破坏试验录相
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6.2 受弯构件斜截面设计方法Design Methods of Diagonal Sections in Bending
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6.2.1 一般受弯构件斜截面设计Design of Diagonal section of General Flexural member
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6.2.1.1 受弯构件斜截面受剪承载力的计算Shear strength calculation of diagonal sections
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6.2.1.2 受弯构件斜截面受弯承载力Flexural capacities of inclined cross sections in flexural members
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6.2.2 深受弯构件斜截面设计
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7 钢筋混凝土受扭构件承载力计算Strength of reinforced Concrete Members in Torsion
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7.1 概述Introduction
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7.2 受扭构件的试验研究Experimental study on tortional members
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7.3 受扭构件承载力计算Strength of members under tortion
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7.3.1 纯扭构件承载力计算Strength of members under pure tortion
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7.3.2 弯、剪、扭构件承载力计算Strength of members under combined tortion,shear and Flexure
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7.3.3 压弯剪扭构件承载力计算Strength of members under combined compression, tortion,shear and Flexure
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8 钢筋混凝土偏心受力构件承载力计算Strength of Reinforced Concrete Eccentric Members
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8.1 概述Introduction
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8.2 偏心受压构件正截面承载力计算Strength of Eccentric Compression Members
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8.2.1 偏心受压构件的破坏特征Failure features of Eccentric Compression Member
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8.2.2 偏心受压构件正截面承载力计算Calculation of Strength of Eccentric Compression Members
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8.2.2.1 矩形截面偏心受压构件 Rectangular Section eccentrically compressive members
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8.2.2.1.1 矩形截面偏心受压构件基本公式Basic equations
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8.2.2.1.2 非对称配筋截面配筋计算Design of asymmetrically reinforced Sections
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8.2.2.1.3 对称配筋截面配筋计算及承载力校核Design and evaluation of symmetrically reinforced Sections
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8.2.2.2 T形、工形截面偏心受压构件 T/I Section eccentrically compressive members
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8.2.2.3 双向偏心受压构件的正截面承载力Biaxial eccentrically loaded members
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8.3 偏心受拉构件正截面承载力计算Strength of Eccentric tension Members
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8.3.1 偏心受拉构件的受力特点Resistance Characteristic of Eccentric Tension Members
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8.3.2 偏心受拉构件正截面承载力计算Strength of Eccentric Tension Members
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8.4 偏心受力构件斜截面承载力计算Strength of Reinforced Concrete Eccentric Members in Shear
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8.5 偏心受力构件的构造要求 Detail requirement
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9 钢筋混凝土构件裂缝、变形、耐久性Crack,Deflection and durability of Concrete Members
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9.1 概述Introduction
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9.2 裂缝宽度验算Check of crack width
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9.3 受弯构件挠度验算Check of deflection
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9.4 耐久性设计 Durability design
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10 Prestressed Concrete Members
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10.1 预应力混凝土的基本知识Basic Concept of Prestressing Concrete
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10.2 预应力混凝土构件设计的一般规定General Design rules of Prestressing Concrete Members
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10.3 预应力混凝土轴心受拉构件的应力分析Stress analysis of pre-stressed axially tensile memebers
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11 EUROCODES
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11.1 1.1 Design philosophy of structures
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11.2 1.2 Introduction of Eurocodes
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11.3 1.3 En 1990 Basis of Structural Design
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11.4 1.4 En 1991 Actions on Structures
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11.5 2.1 EN 1992 Design of Concrete Structures
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11.6 2.2 Design of RC Slabs
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11.7 2.3 Design of RC Beams
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11.8 2.4 Design of RC Columns
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11.9 2.5 Design of RC Pad Foundation
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