Investigation and Numerical Calculation of Bridge Pier in Mountain Area under Erosion of Flow and Sediment

余志祥; 张蓬勃; 赵雷; 许浒

doi:10.13409/j.cnki.jdpme.2016.06.011

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Investigation and Numerical Calculation of Bridge Pier in Mountain Area under Erosion of Flow and Sediment

更新时间：2025-12-11

- Investigation and Numerical Calculation of Bridge Pier in Mountain Area under Erosion of Flow and Sediment
- Vol. 36, Issue 6, Pages: 919-926(2016)
- 作者机构：
- 作者简介：
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- DOI：10.13409/j.cnki.jdpme.2016.06.011
  CLC： 445.7
- Published：2016
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[1]余志祥,张蓬勃,赵雷,许浒.山区桥梁墩柱水沙磨蚀损伤调查与仿真分析[J].防灾减灾工程学报,2016,36(06):919-926.

余志祥, 张蓬勃, 赵雷, et al. Investigation and Numerical Calculation of Bridge Pier in Mountain Area under Erosion of Flow and Sediment[J]. 2016, 36(6): 919-926.
[1]余志祥,张蓬勃,赵雷,许浒.山区桥梁墩柱水沙磨蚀损伤调查与仿真分析[J].防灾减灾工程学报,2016,36(06):919-926. DOI： 10.13409/j.cnki.jdpme.2016.06.011.

余志祥, 张蓬勃, 赵雷, et al. Investigation and Numerical Calculation of Bridge Pier in Mountain Area under Erosion of Flow and Sediment[J]. 2016, 36(6): 919-926. DOI： 10.13409/j.cnki.jdpme.2016.06.011.

摘要

采用实地调查及CFD数值分析方法

研究水沙冲刷作用对山区桥梁墩柱磨蚀损伤的影响。调查了岷江上游13座跨江桥梁的墩柱磨蚀情况

测得了磨蚀深度、磨蚀分布模式以及材料表面硬度。根据调查

基于临界速度和弹性模量的线性相关假定

对Finnie冲蚀磨损模型进行修正

并构建了水沙两相流模型

以桥墩表面混凝土的磨蚀厚度和磨蚀面积作为评价指标

考察了桥墩形状与尺寸、河流水深、流速、含砂率、沙粒粒径等因素对桥墩磨蚀损伤的影响及其变化规律。结果表明:圆形墩柱抗磨蚀能力最好;桥梁墩柱的磨蚀损伤程度与河水含砂率基本呈线性关系但受水深的影响较小;水速对最大磨蚀厚度影响非常明显

却对平均磨蚀厚度影响较小;含沙量相同

粒径越大

对桥梁墩柱的磨蚀作用越大;岷江上游混凝土圆形墩柱的平均磨蚀厚度可按35mm/a进行预测。

Abstract

In order to explore the abrasion damage to bridge pier under erosion of flow in mountain area

field investigation and CFD numerical analysis were adopted.Pier abrasion of 13 bridges crossing the upstream of Minjiang River were surveyed

the depth and shapes of abrasion were measured

the hardness of concrete was also measured.According to the measured data

we modified the finnie erosion wear model on the basis of the assumption that the critical speed has a linear correlation with the elastic modulus.And two phase flow model was constructed.A group of parameters

including shape and size of piers

water depth

flow velocity

sandy ra

tes and grading were taken into account to study their effects on the depth and area of abrasion.The results show that the strongest abrasion resistance is circular pier and the abrasion damage degree of the bridge pier has a basic linear relationship with the sandy rates

but the influence of the water depth is negligible.The flow velocity has a significant effect on the maximum erosion thick

but has negligible effect on the average erosion thickness.With the same sediment concentration

the larger particle size

the greater abrasive action of the bridge pier will be.Average erosion thickness of concrete pier can be predicted according to 3

mm per year.

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references

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