基于均匀设计的泥浆最优配合比试验研究
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摘要
泥浆护壁是地下连续墙成槽施工常采用的方式,泥浆的性能直接影响地下连续墙成槽的稳定性。结合某工程的场地条件,采取均匀设计试验法进行泥浆配合比试验,运用数理统计软件对试验数据进行相关性分析和回归分析并建立各变量的回归方程,根据所需泥浆性能指标对各回归方程进行寻优处理,得出泥浆的最优配合比并进行验证性试验,将计算值与试验值进行对比。结果表明:本次试验的最优配合比方案为膨润土用量115 g、CMC用量为0.6 g、纯碱用量为4.6 g、PHP用量为0.04 g,与试验结果相差不大,该配方比设计合理有效。此法降低试验次数、节约人力与成本,更符合实际工程的需要。
Slurry wall protection is often used in the construction of underground continuous wall trench,and the performance of slurry directly affects the stability of the diaphragm wall. Combines the site conditions of a project,adopt a uniform design method of slurry mixture ratio test,correlation analysis and regression analysis is carry out with the mathematical statistics software,regression equation of each variable is establish. According to the required slurry performance index,regression equation is optimized and optimal mixture ratio of slurry is obtained,verification test is carried out,calculated values are compared with the experimental values. The results show that the optimum mixing ratio of the test is bentonite dosage 115 g,CMC dosage 0. 6 g,soda ash dosage 4. 6 g,PHP dosage 0. 04 g and the experimental results are similar,the formula is more reasonable and effective than the design. This method can reduce the test times,save manpower and cost,and meet the needs of practical engineering.
Slurry wall protection is often used in the construction of underground continuous wall trench,and the performance of slurry directly affects the stability of the diaphragm wall. Combines the site conditions of a project,adopt a uniform design method of slurry mixture ratio test,correlation analysis and regression analysis is carry out with the mathematical statistics software,regression equation of each variable is establish. According to the required slurry performance index,regression equation is optimized and optimal mixture ratio of slurry is obtained,verification test is carried out,calculated values are compared with the experimental values. The results show that the optimum mixing ratio of the test is bentonite dosage 115 g,CMC dosage 0. 6 g,soda ash dosage 4. 6 g,PHP dosage 0. 04 g and the experimental results are similar,the formula is more reasonable and effective than the design. This method can reduce the test times,save manpower and cost,and meet the needs of practical engineering.
引文
[1]徐超,黄亮,邢皓枫.水泥-膨润土泥浆配比对防渗墙渗透性能的影响[J].岩土力学,2010,31(2):422-426.
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[4]赵军,米贵东,冯建建,等.人工神经元网络在高密度水泥浆配合比预测中的应用[J].硅酸盐通报,2013,32(9):1905-1909.
[5]赵民,乌效鸣,吴迪,等.超深地下连续墙护壁泥浆优化[J].施工技术,2016,45(19):20-22+26.
[6]白辉伦,韦猛,苏波.某基坑地下连续墙护壁泥浆的配合比设计及重复使用研究[J].路基工程,2016,(2):179-183.
[7]罗云峰.地下连续墙成槽施工中的泥浆性能研究和探讨[J].岩土工程学报,2010,32(S2):447-450.
[8]吴朝阳,李正农,钟旻.基于均匀设计的基坑土层参数反演和周边沉降预测[J].建筑结构,2014,44(3):84-89.
[9]黄晓晖,龚维明,穆保岗,等.基于均匀设计的带桩帽钢管减沉桩承载性能试验研究[J].岩土力学,2014,35(11):3148-3156.
[10]毕建武,贾进章,刘丹.基于SPSS多元回归分析的回采工作面瓦斯涌出量预测[J].安全与环境学报,2013,13(5):183-186.
[2]杨勇.复合钠基膨润土泥浆护壁机理及其工程应用[J].地下空间与工程学报,2010,6(4):838-844.
[3]董宏波.软土地层超深地下连续墙槽壁稳定性数值分析[J].地下空间与工程学报,2016,12(S2):749-754.
[4]赵军,米贵东,冯建建,等.人工神经元网络在高密度水泥浆配合比预测中的应用[J].硅酸盐通报,2013,32(9):1905-1909.
[5]赵民,乌效鸣,吴迪,等.超深地下连续墙护壁泥浆优化[J].施工技术,2016,45(19):20-22+26.
[6]白辉伦,韦猛,苏波.某基坑地下连续墙护壁泥浆的配合比设计及重复使用研究[J].路基工程,2016,(2):179-183.
[7]罗云峰.地下连续墙成槽施工中的泥浆性能研究和探讨[J].岩土工程学报,2010,32(S2):447-450.
[8]吴朝阳,李正农,钟旻.基于均匀设计的基坑土层参数反演和周边沉降预测[J].建筑结构,2014,44(3):84-89.
[9]黄晓晖,龚维明,穆保岗,等.基于均匀设计的带桩帽钢管减沉桩承载性能试验研究[J].岩土力学,2014,35(11):3148-3156.
[10]毕建武,贾进章,刘丹.基于SPSS多元回归分析的回采工作面瓦斯涌出量预测[J].安全与环境学报,2013,13(5):183-186.
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