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本标准共13章64节410条和7个附录,主要内容有:水工混凝土结构基本设计规定、材料、素混凝土结构构件计算、钢筋混凝土与预应力混凝土结构构件承载能力极限状态计算及正常使用极限状态验算、一般构造规定、水工结构构件的设计构造规定、温度作用设计原则、非杆件体系钢筋混凝土结构的配筋计算原则、钢筋混凝土结构构件抗震设计及有关附录。
2100433B
《水工混凝土结构设计规范SL191-2008(SL 191-2008 替代 SL/ 191-96 和 SDJ 20-78)》是根据水利部水利水电规划设计管理局水总局科[2004]2号文,按照《水利技术标准编写规定》(SL 1-2002)的要求,由长江勘测规划设计研究院会同有关高等院校共同修订而成。《水工混凝土结构设计规范》(S1/T191-96)颁布后,由于和《水工钢筋混凝土结构设计规范》(SDJ20-78)并行使用,在安全度表达及考虑不同荷载的变异性上存在不一致,因此本次修订对以上两本规范进行了整合,对部分条文进行了合理修订,并补充了新的内容。
求水口的水工混凝土结构设计规范2008版以及电口的水工混凝土结构设计规范2009版,以及电口的96版也行。
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《混凝土结构设计规范》 (GB50010-2010)于2011年7月1日正式实施。以钢筋混凝土结构为例,介绍了《水工混凝土结构设计规范》(SL191-2008)与《混凝土结构设计规范》(GB50010...
2010混凝土结构设计规范已经发你邮箱,请注意查收
《水工混凝土结构设计规范SL191-2008》宣贯要点
《水工混凝土结构设计规范SL191-2008》宣贯要点
《水工混凝土结构设计规范》的结构计算探析
从结构的安全度表达、斜截面承载力计算、环境类别的划分、钢筋的分类和构件裂缝宽度计算等方面对比了《水工混凝土结构设计规范》SL191-2008与《水工混凝土结构设计规范》SL/T191-96、《水工钢筋混凝土结构设计规范》SDJ20-78的差异。并结合实例,具体分析了新旧规范的配筋计算方法。
《水工混凝土结构设计规范》(SL 191-2008)是根据水利部水利水电规划设计管理局水总局科[2004]2号文,按照《水利技术标准编写规定》(SL 1-2002)的要求,由长江勘测规划设计研究院会同有关高等院校共同修订而成。
《水工混凝土结构设计规范》(S1/T191-96)颁布后,由于和《水工钢筋混凝土结构设计规范》(SDJ20-78)并行使用,在安全度表达及考虑不同荷载的变异性上存在不一致,因此本次修订对以上两本规范进行了整合,对部分条文进行了合理修订,并补充了新的内容。
本标准共13章64节410条和7个附录,主要内容有:水工混凝土结构基本设计规定、材料、素混凝土结构构件计算、钢筋混凝土与预应力混凝土结构构件承载能力极限状态计算及正常使用极限状态验算、一般构造规定、水工结构构件的设计构造规定、温度作用设计原则、非杆件体系钢筋混凝土结构的配筋计算原则、钢筋混凝土结构构件抗震设计及有关附录。
规范于2009年2月10日正式实施,详见水利部公告:
Department of International Cooperation, Science and Technology of Ministry of Water Resources, P. R. China has the mandate of managing the formulation and revision of water technology standards in China.
Translation of the code from Cl:unese into English was organized by Department of International Cooperation, Science and Technology of Ministry of Water Resources, P. R. China in accordance with due procedures and regulations applicable in the country.
This English version of code is identical to its Chinese original SL 191-2008 Design Code for HydrauLic Concrete Structures, which was formulated and revised under the auspices of Department of International Cooperation, Science and Technology of Ministry of Water Resources, P. R. China.
Introduction to English Version
Foreword
1 GeneralProvisions
2 Terms and Symbols
2.1 Terms
2.2 Symbols
3 Fundamental Design Stipulations
3.1 GeneralStipulations
3.2 Calculation Stipulations of Limit States Design
3.3 Requirements of Structural Durability
4 Material
4.1 Concrete
4.2 Reinforcement
5 Calculation of Plain Concrete Structural Members
5.1 General Stipulations
5.2 Compression Members
5.3 FlexuralMembers
5.4 LocalCompression
5.5 Detailing Reinforcement of Plain Concrete Structure
6 Bearing Capacity Calculation for Limit States of
Reinforced Concrete Structural Members ;
6.1 General Stipulations of Bearing Capacity Calculation
6.2 Calculation of Flexural Bearing Capacity of Normal Section
6.3 Calculation of Compression Bearing Capacity of Normal Section
6.4 Calculation of Tension Bearing Capacity of Normal Section
6.5 Calculation of Shear Bearing Capacity of Inclined Section
6.6 Calculation of Torsion Bearing Capacity
6.7 Calculation of Punching Shear Bearing Capacity
6.8 Calculation of Local Compression Bearing Capacity
7 Checking of Serviceability Limit States for
Reinforced Concrete Structural Member
7.1 Checking of Crack Resistance of Normal Section
7.2 Checking of Crack-width Control of Normal Section
7.3 Checking of Deflection of Flexural Members
8 Calculation of Prestressed Concrete Structural Members
8.1 Design Stipulations
8.2 Calculation of Prestress Loss
8.3 General Stipulations for Calculating Bearing Capacity of Normal Section
8.4 Calculation of Flexural Bearing Capacity of Normal Section
8.5 Calculation of Tensile Bearing Capacity of Normal Section
8.6 Calculation of Shear Bearing Capacity of Inclined Section
8.7 Checking of Crack-resistance
8.8 Checking of Crack Width
8.9 Checking of Deflection of Flexural Member
9 General Detailing Requirements
9.1 Permanent Joint and Temporary Joint
9.2 Concrete Cover
9.3 Anchorage of Reinforcement
9.4 Reinforcement Splices
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