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张玉成, 胡海英, 杨光华, 钟志辉, 刘琼, 刘翔宇. 基于旁压试验获得计算参数的非线性沉降计算方法[J]. 岩土工程学报, 2020, 42(S1): 38-44. DOI: 10.11779/CJGE2020S1008
引用本文: 张玉成, 胡海英, 杨光华, 钟志辉, 刘琼, 刘翔宇. 基于旁压试验获得计算参数的非线性沉降计算方法[J]. 岩土工程学报, 2020, 42(S1): 38-44. DOI: 10.11779/CJGE2020S1008
ZHANG Yu-cheng, HU Hai-ying, YANG Guang-hua, ZHONG Zhi-hui, LIU Qiong, LIU Xiang-yu. Non-linear settlement calculation method based on soil parameters obtained from pressuremeter tests[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(S1): 38-44. DOI: 10.11779/CJGE2020S1008
Citation: ZHANG Yu-cheng, HU Hai-ying, YANG Guang-hua, ZHONG Zhi-hui, LIU Qiong, LIU Xiang-yu. Non-linear settlement calculation method based on soil parameters obtained from pressuremeter tests[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(S1): 38-44. DOI: 10.11779/CJGE2020S1008

基于旁压试验获得计算参数的非线性沉降计算方法

Non-linear settlement calculation method based on soil parameters obtained from pressuremeter tests

  • 摘要: 在常规的地基沉降计算方法中,通常由于室内试验确定的计算参数与实际土体参数存在一定的误差,导致理论计算结果与实际沉降相差较大。为了解决问题,考虑地基沉降的非线性,采用原位试验确定计算参数是一个可行的办法。旁压试验不仅操作简单、费用低,而且能测得不同深度的土体参数。在前人已有的研究成果基础上,研究了基于旁压试验获得沉降计算参数的非线性沉降计算方法。主要内容和成果有:①对目前常用沉降计算方法存在的不足和计算结果精度不高的原因进行了分析总结;②根据旁压试验的受力特点、原理及旁压孔壁土体应力分布规律,假定土体服从M-C屈服准则,从理论上推导沉降计算中需要的岩土体参数Et0,c,φ;③基于杨光华提出的非线性切线模量法,推导并给出了利用旁压试验成果计算地基非线性沉降的原理和步骤;④结合具体工程实例,验证了该方法,并与规范方法中分层总和法的结果进行了对比分析,结果表明基于原位测试结果确定岩土体参数的沉降计算值更符合实际。由于旁压试验在不同深度能够考虑土的非线性和土体剪切变形引起的沉降,通过这项探索性的研究为今后利用原位试验结果计算地基变形打下了基础,也为实际工程的计算分析提供借鉴。

     

    Abstract: In the conventional calculation method for foundation settlement, there is a certain error between the calculation parameters determined by laboratory tests and the actual soil parameters, which leads to a large difference between prediction and reality. To overcome this shortcoming and consider the nonlinearity of foundation settlement, it is feasible to determine the calculation parameters by in-situ tests. The pressuremeter tests are easy to operate and low cost and can be used to measure the soil parameters at different depths. Therefore, on the basis of the previous research results, a non-linear settlement calculation method based on the calculation parameters obtained from the pressuremeter tests is studied. The main contents and achievements are as follows: (1) the shortcomings of the current commonly used settlement calculation methods and the reasons for the low accuracy of the calculated results are analyzed and summarized. (2) According to the stress characteristics and principles of the pressure meter tests, and the distribution laws of soil stress of the pressure meter hole wall as well as the M-C yield criterion, the parameters Et0, c and φ needed in the settlement calculation are derived theoretically. (3) According to the non-linear tangent modulus method proposed by Yang Guang-hua, the principle and procedure of calculating the nonlinear settlement of foundation based on the results of pressuremeter tests are derived and given. (4) The proposed method is verified through projects, and the results are compared with those predicted by the codes (layer-wise summation method). The comparison shows that the prediction based on the parameters derived from in-situ tests is closer to the real settlement. Because the nonlinear soil and the settlement caused by shear deformation of soil can be considered in the pressuremeter tests at different depths, this exploratory study lays a foundation for the calculation of foundation deformation by the results of in-situ test in the future. It can also be regarded as a reference for other projects.

     

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