In-situ shearing experimental instrument for measuring saturated loess-mud rock contact surface

A contact surface and experimental instrument technology, applied in the direction of applying stable shear force to test the strength of materials, instruments, measuring devices, etc., can solve the problems of water permeability difference between the upper and lower contact surfaces, reduce the strength of loess, etc., and achieve large sample size Effect

Active Publication Date: 2017-10-20
NORTHWEST UNIV(CN)
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Problems solved by technology

[0003] At present, in situ shear experiments are mostly experiments on the same rock and soil, such as pure loess, pure gravel soil, etc. For the "loess-mudstone contact surface" landslides that are widely developed in Northwest China, there are few studies on loess and mudstone. The in-situ shear experiment under the saturated state between the contact surfaces shows that the reason why this kind of loess-mudstone contact surface can cause disasters is that there is a large difference in water permeability between the upper and lower contact surfaces. The water permeability of loess is much greater than that of mudstone. After infiltration, it gathers at the rock-soil contact surface, making the loess on the contact surface saturated by water and staying in a state of over-saturated soft plastic for a long time, reducing the strength of the loess

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  • In-situ shearing experimental instrument for measuring saturated loess-mud rock contact surface
  • In-situ shearing experimental instrument for measuring saturated loess-mud rock contact surface
  • In-situ shearing experimental instrument for measuring saturated loess-mud rock contact surface

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Embodiment Construction

[0020] A specific embodiment of the present invention will be described in detail below in conjunction with the accompanying drawings, but it should be understood that the protection scope of the present invention is not limited by the specific embodiment.

[0021] refer to Figure 1~Figure 4 , an in-situ shear test instrument for measuring saturated loess-mudstone contact surface, the invention is generally used for sliding shear surface of landslides at loess-mudstone contact surface. The device of the present invention includes: a shear box, an axial pressure system, a shear force system, a data acquisition system, and a water saturation system.

[0022] The in-situ direct shear test selects a sample whose size is 500 mm × 500 mm × 600 mm in length × width × height. The inner diameter of the shear box is the same as the size of the sample. The shear box is divided into three parts: the lower shear box, The upper shearing box and the pressure cover of the shearing box; the ...

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Abstract

The invention relates to an in-situ shearing experimental instrument for measuring a saturated loess-mud rock contact surface. A lower shearing box is mounted in an experiment foundation pit, an upper shearing box is mounted on the lower shearing box, and a horizontal hydraulic jack is horizontally arranged between the upper shearing box and the experimental foundation pit; a shearing box pressure cover is mounted on the top of the upper shearing box, the shearing box pressure cover is connected to a counterweight supporting plate through an axial hydraulic jack, and a counterweight is mounted on the counterweight supporting plate; a water holder is also mounted in the experimental foundation pit through a supporting rod of the water holder, and the water holder is connected to a water inlet hole in the upper portion of the upper shearing box through a water delivery pipe, so that injected water flows out from the lower portion of the upper shearing box. The in-situ shearing experimental instrument provided by the invention can truly reflect and keep an excessively wet, saturated and soft and plastic state of the loess-mud rock contact surface in situ without disturbance on soil. A test sample for the experiment is large in dimension, and the in-situ shearing experimental instrument is an effective instrument for acquiring in-situ instantaneous shearing strength and long-term creep shearing strength parameters of heterogeneous soil on the saturated loess-mud rock contact surface.

Description

technical field [0001] The invention relates to the technical field of in-situ testing, in particular to an in-situ shear tester for measuring the contact surface of saturated loess-mudstone. Background technique [0002] The in-situ shear test is actually to measure the shear strength of the rock-soil body itself when the rock-soil body moves along the weak surface or the contact surface under the action of external force; measure the shear strength of the test object under different axial pressures, and obtain the soil strength. The shear strength index cohesion c and friction angle ψ can calculate the stability of geological bodies such as landslides. [0003] At present, in situ shear experiments are mostly experiments on the same rock and soil, such as pure loess, pure gravel soil, etc. For the "loess-mudstone contact surface" landslides that are widely developed in Northwest China, there are few studies on loess and mudstone. The in-situ shear experiment under the sat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N3/24
CPCG01N3/24G01N2203/0025G01N2203/0048G01N2203/0071
Inventor 王新刚王家鼎朱荣森贾鹏飞刘杰王钰鹏
Owner NORTHWEST UNIV(CN)
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