Large-scale direct shear tests on accumulation body with different stone contents

YANG Ji-hong; DONG Jin-yu; HUANG Zhi-quan; ZHENG Zhu-guang; QI Dan

doi:10.11779/CJGE2016S2026

Volume 38 Issue z2

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Chinese Journal of Geotechnical Engineering > 2016 > 38(z2): 161-166. > DOI: 10.11779/CJGE2016S2026

YANG Ji-hong, DONG Jin-yu, HUANG Zhi-quan, ZHENG Zhu-guang, QI Dan. Large-scale direct shear tests on accumulation body with different stone contents[J]. Chinese Journal of Geotechnical Engineering, 2016, 38(z2): 161-166. DOI: 10.11779/CJGE2016S2026

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Large-scale direct shear tests on accumulation body with different stone contents

School of Resources and Environment, North China University of Water Resources and Electric Power, Zhengzhou 450045, China

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Received Date: May 18, 2016
Published Date: October 19, 2016

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The accumulation bodies composed of soil-rock mixture are widely distributed in China. The deformation and stability of huge and large-scale loose accumulation bodies in reservoir areas are extremely concerned during construction of hydroelectric projects. Aiming at the complex property and material composition of accumulation slopes, the typical accumulation slopes in Three Gorges Reservoir region are studied through field investigation, sampling and laboratory tests. The influences of stone contents on the relationship between shear stress and displacement and soil strength parameters are analyzed by using the large-scale direct shear tests. Mechanical properties and deformation of accumulation bodies are controlled by the stone contents. With change of the stone content, the relation curves of shear stress and displacement are classified into three types: exponential curve, hyperbolic form and strain softening. The cohesion of accumulation body increases with the increment of the stone content in the form of quadratic polynomial curve, and generally it reaches the peak value when the stone content is about 60%, then it decreases as the stone content increases. The internal friction angle increases with the increment of the stone content in the form of exponential curve.
- soil-rock accumulation body,
- stone content,
- lab large-scale direct shear test,
- shear stress- displacement relation,
- shear strength

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