Internal force and deformation calculation of chair retaining structure
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摘要: 基于传统排桩的设计计算理论,提出一种适用于椅式支挡结构的计算方法,并对椅式支挡结构的前、后排桩间土体对桩侧的初始土压力分配系数进行了改进。利用Mathematica软件编制了椅式支挡结构分析程序CRSA,采用理正深基坑支护设计软件对双排桩支挡结构进行了计算和对比分析,分析结果表明CRSA程序计算是正确的,可用于实际工程的计算和分析。结合具体工程项目,对3个不同坡段的椅式支挡结构的内力和变形进行计算与分析,分析结果表明椅式支挡结构在前排桩与连梁连接处弯矩最大,支护结构设计时,需加大此处的配筋量;桩体剪力最大值位于基坑底以下的前排桩,水平位移最大值位于前排桩的桩顶,设计时需注意使结构的内力和变形满足相关要求。
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关键词:
- 初始土压力分配系数 /
- Mathematica /
- 结构分析 /
- 双排桩支挡结构 /
- 理正深基坑设计软件
Abstract: Based on the traditional design and calculation theory of pile row, a calculation method suitable for the chair retaining structure was proposed, and the initial soil pressure distribution coefficient between the front and back piles of the chair retaining structure was improved. The chair retaining structure analysis program CRSA was compiled by Mathematica software, and the double-row pile retaining structure was calculated and compared by Lizheng deep foundation pit support design software. The analysis results show that the CRSA program is correct and can be used for practical engineering calculation and analysis. According to the concrete project, the internal force and deformation of the chair retaining structure with three different slope sections were calculated and analyzed. The analysis results show that the bending moment of the chair retaining structures was the largest at the joint of the front pile and the connecting beam. When designing the structure, the reinforcement amount at this location should be increased. The maximum value of pile shear was located at the front pile below the foundation pit bottom, and the maximum value of horizontal displacement was located at the top of the front pile. Attention should be paid to the internal force and deformation of the structure to meet the relevant requirements during design. -
表 2 理正方法与本文方法计算结果对比
计算方法 最大剪力/kN 最大弯矩/(kN·m) 最大水平位移/mm 理正方法 392.49 808.47 20.37 本文方法 430.87 775.05 21.64 
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表 3 场区内典型边坡设计概况
边坡分段 坡长/m 坡高/m 边坡性质 C—D 74.5 8.7 半挖半填,土质边坡 C—E 88.2 8.8~12.8 半挖半填,土质边坡 F—G 43.5 6.6~8.6 半挖半填,土质边坡
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