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A Calculation Method of Anti-overturning Bearing Capacity of Single Column Pier Girder Bridge

A calculation method and anti-overturning technology, applied in bridges, special data processing applications, geometric CAD, etc., can solve problems such as lack of practical calculation methods, inability to scientifically and quickly determine whether a bridge is overturned, and inability to adapt to the actual situation of vehicle load, etc. To achieve the effect of reducing the probability of overturning

Active Publication Date: 2016-08-17
ZHEJIANG UNIV OF TECH
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Problems solved by technology

Therefore, in the design of highway bridges, the calculation of the overturning stability of the superstructure only takes 30% of the overload into account and cannot adapt to the actual situation of the existing vehicle load; at the same time, it is debatable to judge whether the structural overturning only uses the negative reaction force of the support; finally, because Lack of effective and practical calculation methods, engineering personnel cannot scientifically and quickly judge whether the bridge is overturned

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  • A Calculation Method of Anti-overturning Bearing Capacity of Single Column Pier Girder Bridge
  • A Calculation Method of Anti-overturning Bearing Capacity of Single Column Pier Girder Bridge
  • A Calculation Method of Anti-overturning Bearing Capacity of Single Column Pier Girder Bridge

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Embodiment Construction

[0044] The present invention will be described in detail below with reference to the drawings and specific embodiments.

[0045]In this embodiment, the Chunhui Ramp Bridge in Shangyu, Zhejiang is taken as an example to calculate the anti-overturning bearing capacity of the single column pier beam bridge.

[0046] The girder bridge adopts a one-way double-lane, with a section width of 8m. The specific dimensions of the box girder section are: the diameter of the pier is 1.1m, and the longitudinal slope is 3.5%. The end is a double pier column, and the upper end is provided with a torsion bearing, and the distance between the edges of the two piers is l=1.0m. The pier is 0.4m away from the edge of the lower flange of the box girder.

[0047] At the overturning site, when the girder bridge was overturned, there were four overloaded vehicles with loads of 28.52t, 124.44t, 125.6t and 110.73t respectively. The light vehicle was on the inside, and three heavy vehicles passed by at a...

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Abstract

The invention discloses a method for calculating the anti-overturning bearing capacity of a single-pier girder bridge. The method comprises the following steps that firstly, the rotating axis of a box girder in an overturning critical state is determined; secondly, the dead load moment of the box girder, the load moment of the anti-overturning side and the anti-torque support reaction moment of the overturning side are calculated according to the rotating axis; thirdly, the anti-overturning moment of the single-pier girder bridge is calculated according to the dead load moment of the box girder, the load moment of the anti-overturning side and the anti-torque support reaction moment of the overturning side. The method solves the problem that the anti-overturning bearing capacity of an existing single-pier girder bridge cannot be predicted, the anti-overturning load capacity of the girder bridge is determined in real time according to the real-time load condition of the girder bridge, and the overturning probability of the girder bridge can be decreased easily.

Description

technical field [0001] The invention relates to civil engineering technology, in particular to a method for calculating the anti-overturning bearing capacity of a single-column pier-beam bridge. Background technique [0002] The causes of bridge collapse accidents include insufficient construction quality, unreasonable design, vehicle overload, impact and other collapses caused by natural conditions. Especially in recent years, the successive collapse of single-pillar piers and girder bridges has aroused widespread concern in the society. [0003] At present, domestic bridge designers pay more attention to the flexural and shear bearing capacity of the superstructure and the crack resistance of concrete, and there is a large degree of redundancy when the requirements of the code are met. However, the necessary attention is not paid to the lateral stability and overturning of the bridge. Even if the overturning stability is considered, most of the end supports are empty or n...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E01D1/00
CPCG06F30/17
Inventor 彭卫兵徐文涛潘若丹
Owner ZHEJIANG UNIV OF TECH
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