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TB 10091-2017 (TB10091-2017)

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BASIC DATA
Standard ID TB 10091-2017 (TB10091-2017)
Description (Translated English) Code for Design on Steel Structure of Railway Bridge
Sector / Industry Railway & Train Industry Standard
Classification of Chinese Standard S31
Word Count Estimation 67,640
Date of Issue 2017-01-02
Date of Implementation 2017-05-01
Older Standard (superseded by this standard) TB 10002.2-2005
Regulation (derived from) State-Railway-Technology-Regulation (2017) No.3


TB 10091-2017: PDF in English
TB 10091-2017
Code for Design on Steel Structure of Railway Bridge
UDC
Industry Standard of the People 's Republic of China
Code for steel structure design of railway bridge
2017-01-02 release
2017-05-01 Implementation
Issued by the State Railway Administration
People 's Republic of China Industry Standard
Code for steel structure design of railway bridge
Organizer. China Railway Bridge Survey and Design Institute Group Co., Ltd
Approved by. National Railway Administration
Date of implementation. May 1,.2017
Preface
"Railway Bridge Steel Design Code" TB 10002.2-2005 since the release of China's railway, especially high-speed railway
Construction has made remarkable achievements, the Beijing-Shanghai, Beijing-Guangzhou, Zhengzhou West, Kazakhstan and other high-speed railway, Yi Wan, too Bank of China
Passenger and freight line railway, Shanxi and southern channel, Mongolian and other heavy railways, the Pearl River Delta and Wuhan city circle intercity railway
A large number of railway projects have been completed and opened to traffic, improve the road network structure, an increase of the effective supply of rail transport services. through
Over ten years of active exploration and innovation practice, China's railway bridge construction technology has made a major breakthrough, has been among the world
Advanced ranks. Nanjing Dashengguan Yangtze River Bridge, Wuhan Tianxingzhou Yangtze River Bridge and a number of deep water, large span, special geological
Conditions, the complex structure of the successful construction of the bridge, independent research and development of large tonnage box girder complete sets of technology widely used,
In order to further improve the railway bridge technical standards have accumulated rich experience, laid a solid foundation.
This specification is based on the requirements of the National Railway Administration to build a railway engineering construction standard system, in order to meet the railway bridge construction
Facilities and development needs, unified railway bridge steel design standards, improve the railway bridge steel design level, protection
Railway bridge steel structure safety and quality, on the basis of the original norms, summed up in recent years, China's high-speed, inter-city, passenger and cargo
Collinear and heavy-duty railway bridge steel construction, operation of the practical experience and scientific research, a comprehensive revision.
This specification implements the principles of safety priorities, strengthens quality and safety, conserves resources and protects the environment.
Requirements, focus on the overall design, combined with China's national conditions, socio-economic development level, environmental conditions and other factors, reasonable
To determine the different transport properties of different types of different levels of railway bridge steel structure of the main design standards, to further mention
Rose the norms of scientific and technical economic rationality. In recent years, China's railway steel bridge design field emerged a large number of new
Materials, new structures, new processes, including the use of new materials for Q500q steel, all welded joints and integral steel bridge panels
With the construction of kilometer railway cable-stayed bridge and suspension bridge, the norms in the summary, to absorb the advanced achievements and mature
Experience based on the revised.
This specification consists of 10 chapters, including general principles, terms and symbols, materials and basic allowable stresses, structural forces
Calculate the length of the bar, slenderness ratio and component cross-section, component connection, deck system and joint system, steel beam, steel
Truss beams, bearings, etc., and another three appendix.
The main technical contents of this revision are as follows.
1. Revised the scope of application of the specification, applicable to high-speed railway, inter-city railway, passenger and freight line Ⅰ and Ⅱ railway,
Structural Design of Heavy Haul Railway Bridge.
2. Increase the relevant provisions of Q500q steel.
3. With the national standard "structural steel for bridge" revision, revised steel structure of the steel structure of the relevant provisions.
4. Revised the design requirements for the impact toughness of welded joints (including weld metal and heat affected zones).
5. Increases the fatigue resistance of the 17 structural details; the supplement provides for both axial and bending stresses
Calculation of stress amplitude of rods.
6. The two-line coefficient to expand the formation of multi-line coefficient; added high-speed railway, intercity railway fatigue damage correction system
The ratio of the stress ratio to the correction coefficient table increases the ratio of the stress ratio.
7. Added the relevant provisions for the stability of the box bar with stiffener.
8. The relevant provisions for the effective width of the flange of the bridge deck of the steel truss girder are added.
9. Added the relevant requirements for the effect of the discontinuity of the temperature change on the structure of the truss composite structure.
In the implementation of the norms of the process, I hope the units combined with engineering practice, conscientiously sum up experience, the accumulation of information. Such as
Found to need to modify and add the place, please send the views and relevant information to the China Railway Bridge Survey and Design Institute Limited
(Wuhan City Economic and Technological Development Zone Bo Xue Road on the 8th, Zip code. 430056), and copy the China Railway Economic Regulation
(Beijing Haidian District, North honeycomb Road No. 29, zip code. 100038), for future revision reference.
This specification is interpreted by the Ministry of Science, Technology and Law of the State Railway Administration.
Organizer. China Railway Bridge Survey and Design Institute Limited
Participated by. China Railway Science Research Institute
China Railway Engineering Design Consulting Group Co., Ltd
Main drafters. Xu Wei, Zhang Yuling, Xu Shengqiao, Liu Hanshun, Du Ping, Gao Jingqing, Gao Xing, Wang Zhiping,
TANG He-qiang, XIE Xin, ZHANG Cheng-dong, XU Ke-ying, CUI Xin, WANG Li, TAO Xiao-yan, JIN Ling, ZHAO Bubo.
Main reviewers. Wang Zhaohu, Wu Shaohai, Chen Liangjiang, Yang Mengjiao, Liu Yan, Xue Jiagang, Yin Ningjun, Liu Chun,
ZHAO Hui-dong, YANG Peng-jian, YANG Yan-hai, CHEN Ke-jian, YAN Yong, WANG Xin-guo, QU Guo-zhao, GUI 婞, MAO Wei-qi, TU Man-ming, HU Guang-rui
Directory
1 General .1
2 terms and symbols
2.1 Terminology
2.2 symbols .3
3 material and basic allowable stress
3.1 Basic materials .5
3.2 Basic allowable stress
4 internal force calculation
4.1 Principles of structural internal forces calculation
4.2 Strength and stability calculation
4.3 Fatigue calculation .24
The calculated length, slenderness, and cross section of the bar
5.1 Calculate the length of the bar
5.2 allowable maximum slenderness of the bar
5.3 Section of the component
6 component connection
6.1 Mechanical connection
6.2 Weld connection
7 deck system and connection system
7.1 deck system
7.2 Settings of the connection system
8 steel beam
9 steel truss beam
10 seats .51
Appendix A main technical indicators for railway bridge steel
Appendix B Calculation of the bending moment of the beam in the plane of the beam with the vertical load.
Appendix C Calculation of internal forces caused by the deformation of the longitudinal and transverse beams of single-wire simply supported steel truss beams.56
Appendix D Requirements for Ultrasonic Flaw Detection of Welded Joints
Appendix E Weld appearance quality requirements
Instructions for this specification
Specification for Steel Structure Design for Railway Bridges
1 General
1.0.1 To implement the relevant national laws and regulations and railway technology policy, unified railway bridge steel design technical standards, so that
Railway bridge steel structure design in line with safe and reliable, advanced mature, affordable, environmental protection requirements, the development of this specification.
1.0.2 This specification applies to high-speed railway, inter-city railway, passenger and freight line Ⅰ and Ⅱ railway, heavy rail riveting,
Design of Steel Structure for Welding and Full Welding of Bridge. The steel structure of the public and iron bridge alone shall bear the load of the road
Of the highway industry-related standards for design.
1.0.3 railway bridge steel structure should have the required strength, stiffness, stability and durability, the main structure of the design
The age should be 100 years.
1.0.4 The design of this specification, should still meet the current "Railway Bridge Design Code" (TB 10002) requirements.
1.0.5 steel structure of the components should be standardized, so that the same type of components can be interchangeable. The structure should be easy to process, transport, and safety
Equipment, inspection and maintenance.
1.0.6 Bridge cross-structure should be set to pre-camber, pre-camber curve and the dead and semi-static live load generated by the deflection curve shape
Basically the same, but in the opposite direction. The vertical deflection caused by dead load and static load is not more than 1/160......