三轴仪K0系数测量与应力路径试验功能的研发
收稿日期: 2019-10-16
网络出版日期: 2021-04-30
基金资助
国家自然科学基金资助项目(41727802);国家自然科学基金资助项目(41630633)
Development of K0 Coefficient Measurement and Stress Path Test Function of Triaxial Apparatus
Received date: 2019-10-16
Online published: 2021-04-30
上海交通大学自行研制组装的高精度小应变新型三轴仪(以下均简称为新三轴仪)采用了内置轴压三轴室,集成了程序自动控制的应力、应变式加载功能以及线性差动变压器(Linear Variable Differential Transformer, LVDT)测量小应变功能.本文在此基础上进一步进行拓展,使其具备了测量土样K0系数和沿q-p(q为偏应力,p为平均主应力)应力空间任意方向进行应力路径剪切试验的功能.首先简要介绍三轴仪的研发历史,然后对K0系数测量和应力路径试验两大新功能的控制程序算法进行详细说明,接着对上海深部软土进行K0系数测量与应力路径试验并对结果进行简要分析,对新功能的可靠性进行了验证.所研发新三轴仪的经验可为土工仪器设备的研发提供参考.
关键词: 三轴仪; 静止土压力系数(K0); 应力路径试验; 上海深部土
潘上, 刘谨豪, 张琪, 叶冠林 . 三轴仪K0系数测量与应力路径试验功能的研发[J]. 上海交通大学学报, 2021 , 55(4) : 372 -379 . DOI: 10.16183/j.cnki.jsjtu.2019.296
The high accuracy small strain triaxial apparatus (hereinafter inferred to as the new triaxial apparatus) developed and assembled by Shanghai Jiao Tong University adopts a built-in pressure chamber by integrating the stress and strain loading function automatically controlled by the program and the linear variable differential transformer (LVDT) function of measuring small strain. In this paper, the new triaxial apparatus is further expanded. Now it has the function of measuring K0 coefficient of undisturbed soil sample and performing stress path loading along any direction of q-p (q is the deviatoric stress and p is the average principal stress) stress space. First, the development history of the new triaxial apparatus is briefly introduced and the control program algorithm of K0 coefficient measurement and stress path test for the two new functions are described in detail. Then, the K0 coefficient measurement and stress path test for deep soft clay in Shanghai are conducted, and the results are analyzed to verify the reliability of the new functions. The experience of the new triaxial apparatus can provide reference for the development of geotechnical instruments.
| [1] | MAYNE P W, KULHAWY F H. K0-OCR relationships in soil[J]. Journal of the Geotechnical Engineering Division, 1982, 108(6):851-872. |
| [2] | 纠永志, 黄茂松. 超固结软黏土的静止土压力系数与不排水抗剪强度[J]. 岩土力学, 2017, 38(4):951-957. |
| [2] | JIU Yongzhi, HUANG Maosong. Coefficient of earth pressure at rest and undrained shear strength of overconsolidated soft clays[J]. Rock and Soil Mechanics, 2017, 38(4):951-957. |
| [3] | ABDELHAMID S, KRIZEK R J. At-rest lateral earth pressure of consolidation clay[J]. Journal of the Geotechnical Engineering Division, 1976, 102(7):721-738. |
| [4] | 杨熙章, 魏道垛. 土的静止侧压力系数自动测试仪的研制[J]. 同济大学学报, 1981, 9(3):98-103. |
| [4] | YANG Xizhang, WEI Daoduo. Development of an automatized measuring apparatus for the at-rest earth pressure coefficient[J]. Journal of Tongji University, 1981, 9(3):98-103. |
| [5] | JAKY J. The coefficient of earth pressure at rest[J]. Journal for Society of Hungarian Architects and Engineers, 1944, 10:355-358. |
| [6] | SCHMIDT B. Earth pressures at rest related to stress history[J]. Canadian Geotechnical Journal, 1966, 3(4):239-242. |
| [7] | WATABE Y, TANAKA M, TANAKA H, et al. K0-consolidation in a triaxial cell and evaluation of in situ K0 for marine clays with various characteristics[J]. Soils and Foundations, 2003, 43(1):1-20. |
| [8] | 武朝军. 上海浅部土层沉积环境及其物理力学性质[D]. 上海: 上海交通大学, 2016. |
| [8] | WU Chaojun. Depositional environment and geotechnical properties for the upper Shanghai clays[D]. Shanghai: Shanghai Jiao Tong University, 2016. |
| [9] | 陈超斌, 叶冠林. 基于LVDT的小应变三轴仪研制及其软土试验应用[J]. 岩土力学, 2018, 39(6):2304-2310. |
| [9] | CHEN Chaobin, YE Guanlin. Development of small-strain triaxial apparatus using LVDT sensors and its application to soft clay test[J]. Rock and Soil Mechanics, 2018, 39(6):2304-2310. |
| [10] | 杨同帅, 叶冠林, 顾琳琳. 上海软土小应变三轴试验及本构模拟[J]. 岩土工程学报, 2018, 40(10):1930-1935. |
| [10] | YANG Tongshuai, YE Guanlin, GU Linlin. Small-strain triaxial tests and constitutive modeling of Shanghai soft clays[J]. Chinese Journal of Geotechnical Engineering, 2018, 40(10):1930-1935. |
| [11] | 张锋. 计算土力学[M]. 北京: 人民交通出版社, 2007. |
| [11] | ZHANG Feng. Computational soil mechanics[M]. Beijing: China Communications Press, 2007. |
| [12] | HUANG M S, LIU Y H, SHENG D C. Simulation of yielding and stress-stain behavior of Shanghai soft clay[J]. Computers and Geotechnics, 2011, 38(3):341-353. |
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