Experimental study on stress path of sand based on digital image processing technique

HOU Shi-wei; LU De-chun; CHENG Xing-lei; DU Xiu-li

Volume 33 Issue zk1

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Chinese Journal of Geotechnical Engineering > 2011 > 33(zk1): 403-408.

HOU Shi-wei, LU De-chun, CHENG Xing-lei, DU Xiu-li. Experimental study on stress path of sand based on digital image processing technique[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(zk1): 403-408.

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Experimental study on stress path of sand based on digital image processing technique

Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing University of Technology, Beijing 100124, China

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Received Date: April 25, 2011
Published Date: November 30, 2011

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Abstract

The triaxial equipment of GDS is improved based on the digital image processing technique, and the failure process and shear band mode of medium sand under different stress paths are studied. Thirteen monotonic shearing tests are performed, including isotropic stress consolidation and anisotropic stress consolidation. Deformation characters and strain fields of sample surface at different time during triaxial compression progress are recorded, and the failure progress of samples is presented. The results show that, under different stress paths, the failure progress of samples is closely related to the stress path. Different realizing ways of increasing pore pressure and decreasing the total stress for the same stress path may lead to different results. The final failure mode can be divided into three kinds, namely uniform bulging, single shear band and cross shear band. The effective stress ratio regularity shows that the higher stress ratio of consolidation, the lower value of effective stress ratio and the bigger value of reduction after peak value. The failure mode is initially determined before the peak value of effective stress ratio, macro stability is reached after the peak value.
- digital image processing technique,
- stress path,
- triaxial test,
- shear band

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