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澜沧江特大桥主桥悬索桥施工阶段控制索塔内力的新方法
引用本文:张发春. 澜沧江特大桥主桥悬索桥施工阶段控制索塔内力的新方法[J]. 公路交通科技, 2007, 24(10): 104-107
作者姓名:张发春
作者单位:云南省公路规划勘察设计院,云南,昆明,650011
摘    要:云南祥临澜沧江特大桥为主跨380 m的单跨钢-混组合加劲梁悬索桥,在加劲梁段的架设阶段,由于中跨加劲梁段的吊装等因素导致主跨侧主缆的水平分力要大于边跨侧。为了将索塔的塔根弯矩控制在容许范围之内,该桥不采用传统的预偏索鞍法而是采用了一种新的方法即通过边缆拽塔法来实现调整索塔在施工阶段的内力。并重点阐述了边缆拽塔方法的设计理念、关键技术及施工方法。该技术在国内尚属首例,国外也没有成熟的经验可循,它的成功实践对国内今后同类桥梁的设计施工具有重要的参考意义。

关 键 词:桥梁工程  悬索桥  边缆拽塔  施工控制  索塔  钢-混组合加劲梁
文章编号:1002-0268(2007)100104-04
修稿时间:2007-03-21

A New Method of Controlling Pylon''''s Stress in Lancang River Main Suspension Bridg
ZHANG Fa-chun. A New Method of Controlling Pylon''''s Stress in Lancang River Main Suspension Bridg[J]. Journal of Highway and Transportation Research and Development, 2007, 24(10): 104-107
Authors:ZHANG Fa-chun
Affiliation:Yunnan Highway Planning Prospecting and Designing Instituete, Yunnan Kunming 650011, China
Abstract:Yunnan Xianglin Lancang River Bridge is a single span suspension bridge with main span of 380 m and applies steel-concrete composite stiffening girder.During the installation stage of stiffening girder,the horizontal component force of main cable in main span is bigger than in side span.In order to control the bending moment in the lowerest section of the pylon within the allowable limit,the method of pulling pylon with stressing side main cable is applied to adjust the pylon's stress during the construction stage.The design idea,the key technologies and construction of this method is elaborated.The method is first used in China and there is no successive overseas experience.Its practice will present the important reference to the design and construction of similar bridges.
Keywords:bridge engineering  suspension bridge  pulling pylon with stressing side main cable  construction control  pylon  steel-concrete composite stiffening girder
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