期刊首页 优先出版 当期阅读 过刊浏览 作者中心 关于期刊 English

《工程(英文)》 >> 2017年 第3卷 第6期 doi: 10.1016/j.eng.2017.11.001

中国大跨度高速铁路桥梁技术的发展与前景

China Railway Major Bridge Reconnaissance and Design Institute Co., Ltd., Wuhan 430050, China

发布日期: 2017-12-30

下一篇 上一篇

摘要

中国高速铁路发展迅速,建设了大量跨越大江大河和深山峡谷的大跨度桥梁,已经建成的高铁桥梁最大跨度为630 m,正在建设中的沪通长江大桥和五峰山长江大桥跨度达1092 m。为了解决大跨度桥梁载重量大、结构刚度要求高带来的技术难题,开发了系列多功能合建桥梁建造技术,开展了三索面三主桁、斜主桁、板- 桁架组合、钢- 混凝土组合等新型结构的创新与实践,对高性能材料研发和桥梁结构整体化制造及架设技术进行了探索。

图片

图1

图2

图3

图4

图5

图6

图7

图8

图9

参考文献

[ 1 ] Gao ZY. Technical characteristics of main bridge of Hutong Changjiang River Bridge. Bridge Constr 2014(2):1–5. Chinese.

[ 2 ] Qin SQ, Gao ZY, Pan DF. Research of key techniques for Wuhan Tianxingzhou Changjiang River Rail-cum-Road Bridge. Bridge Constr 2007 (1):1–4. Chinese.

[ 3 ] Gao ZY. Overall design of Wuhan Tianxingzhou Changjiang River Rail-cum- Road Bridge. Bridge Constr 2007(1):5–9. Chinese. 链接1

[ 4 ] Tang HQ, Xu GY, Liu HS. Feasibility analysis of applying of suspension bridge type to railway bridges. Bridge Constr 2017(2):13–8. Chinese.

[ 5 ] Xiao HZ, Xu W, Gao ZY. Design of Anqing Changjiang River Railway Bridge. Bridge Constr 2009(5):6–8. Chinese. 链接1

[ 6 ] Wang ZP, Du P. A study on the co-action between floor system and main truss of six-line railways steel truss girder cable-stayed bridge. Eng Technol Res 2017(2):14–7. Chinese.

[ 7 ] Gao ZY, Yi LX, Xiao HZ. Dashengguan Bridge—The largest span steel arch bridge for high-speed railway. Struct Eng Intern 2010;20(3):299–300. 链接1

[ 8 ] Yi LX. Design and study of long span steel truss arch bridge of Dashengguan Changjiang River Bridge in Nanjing. Bridge Constr 2009(5):1–5. Chinese. 链接1

[ 9 ] Xu W. Design of steel girder of main bridge of Wuhan Tianxingzhou Changjiang River Rail-cum-Road Bridge. Bridge Constr 2008(1):4–7. Chinese.

[10] Gao ZY. Zhengzhou Yellow River Road-cum-Railway Bridge, China. Stahlbau 2012;81(2):151–5. 链接1

[11] Xiao HZ, Gao ZY. Structural design on main part of Yellow River Rail-Road Bridge in Zhengzhou. Railway Invest Survey 2007(S1):30–4. Chinese.

[12] Li WH, Yang GW, Wei X. Design of steel truss girder cable-stayed bridge of 567 m main span of Huanggang Changjiang River Rail-cum-Road Bridge. Bridge Constr 2013(2):10–5. Chinese.

[13] Wan TB, Zhang Q. Key techniques for design of main bridge of Tongling Changjiang River Rail-cum-Road Bridge. Bridge Constr 2014(1):1–5. Chinese.

[14] Gao ZY. Technical innovations of Zhengzhou Huanghe River Rail-cum-Road Bridge. Bridge Constr 2010(5):3–6. Chinese. 链接1

[15] Wang YW. Construction techniques for erection of arch rib of main bridge of Guizhou Yachi River Bridge on Chengdu-Guiyang Railway. Bridge Constr 2017;47(1):104–8. Chinese.

[16] Mei DP, Yi LX. Criterion of mechanical behavior of welded joints of Q420qE high strength structural steel. Bridge Constr 2010(5):20–3. Chinese.

[17] Yi LX, Gao ZY, Chen WX. Development and application of high-performance structural steel for Hutong Changjiang River Bridge. Bridge Constr 2015 (6):36–40. Chinese.

[18] Xiao HZ, Yi LX. Design of superstructure of main bridge of Nanjing Dashengguan Changjiang River Bridge. Bridge Constr 2010(1):1–4. Chinese. 链接1

[19] Gao ZY, Mei XY, Xu W, Zhang YF. Overall design of Hutong Changjiang River Bridge. Bridge Constr 2015(6):1–6. Chinese.

[20] Li W, Zhang Q. Study of anchoring parameters design for stay cable of Tongling Changjiang River Rail-cum-Road Bridge. World Bridges 2013(6):67–71. Chinese.

[21] Yang JH, Hu HB. Assembling techniques for full blocks of steel truss girder of Wuhan Tianxingzhou Changjiang River Rail-cum-Road Bridge. Bridge Constr 2008(6):5–7. Chinese. 链接1

[22] Yan HB, Zheng ZY, Huang XY. Manufacturing techniques for all-welded units of steel girder of Tongling Changjiang River Rail-cum-Road Bridge. Bridge Constr 2014(1):6–10. Chinese.

[23] Guan Y, Chen T, Tang Y, Song HF. Techniques for segmental assembling of main ship channel of Hutong Changjiang River Rail-cum-Road Bridge. Bridge Constr 2016(6):13–7. Chinese.

[24] Sun YJ, Xu W. Design of composite double decks and fully welded steel truss girder of Pingtan Strait Rail-cum-Road Bridge. Bridge Constr 2016(1):1–5. Chinese.

[25] Gao ZY. Cable-supported bridges with multiple towers. Beijing: China Railway Publishing House; 2016. Chinese.

[26] Shao CY. Study for structural system and performance of 3-pylon cable-stayed Yiling Changjiang River Bridge. In: Proceedings of the 9th National Conference on Structural Engineering; 2000 Sep 16–20; Chengdu, China. Beijing: Engineering Mechanics Press; 2000. p. 272–7. Chinese.

[27] Hu JH. Project design of Dongting Lake Bridge. Hunan Commun Sci Technol 1998;24(1):24–9. Chinese.

[28] Chen W, Zhang DP. Research of structural system schemes for Wuhan Erqi Changjiang River Bridge. Bridge Constr 2011(1):1–4. Chinese. 链接1

[29] Wei J, Wang BB. Jinan Jianbang Yellow River Main Bridge design. Energy Conserv Environ Protect Transport 2015(3):88–91. Chinese.

[30] Zhang XG, Wang RG, Lin DJ, Wu WS. Structural system design of multiple towers cable stayed Jiashao Bridge. Highway 2013(7):286–9. Chinese.

[31] Yang J. Technical ideas of conceptual design of three-tower suspension bridge for main bridge of Taizhou Changjiang River Highway Bridge. Bridge Constr 2007(3):33–5. Chinese. 链接1

[32] Yang GW, Xu HG, Zhang Q. Study of key techniques for three-tower suspension bridge of Maanshan Changjiang River Bridge. Bridge Constr 2010(5):7–11. Chinese. 链接1

[33] Wang ZB, Yang J, Zhou P. Study of steel and concrete composite girder suspension bridge scheme for Yingwuzhou Changjiang River Bridge. Bridge Constr 2010(4):52–6. Chinese. 链接1

[34] Gao ZY, Shi FH. Key techniques of design of main bridge of Oujiang River North Estuary Bridge in Wenzhou. Bridge Constr 2017(1):1–5. Chinese.

相关研究