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Indoor sand grouting simulation test device and testing method thereof

A simulation test and grouting technology, applied in the direction of measuring devices, flow characteristics, instruments, etc., can solve the problems of backwardness, limited improvement space, reduce the permeability coefficient of sandy soil layers, etc., and achieve the effect of optimizing grouting parameters

Inactive Publication Date: 2019-01-11
TIANJIN UNIV
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Problems solved by technology

The application of grouting technology can significantly reduce the permeability coefficient of sandy soil and improve the bearing capacity of the foundation. The development process of action modes such as densification or splitting cannot be directly observed, which makes the research on grouting theory based on laboratory tests far behind the needs of engineering practice. [1-3] , which also makes the grouting process more dependent on experience, and the room for improvement and improvement is limited
The relative lag of indoor grouting research seriously restricts the construction of water conservancy projects in complex strata, so it is urgent to carry out relevant indoor experimental research in this area [4]

Method used

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  • Indoor sand grouting simulation test device and testing method thereof
  • Indoor sand grouting simulation test device and testing method thereof
  • Indoor sand grouting simulation test device and testing method thereof

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Embodiment Construction

[0042] In order to further understand the invention content, characteristics and effects of the present invention, the following examples are given, and detailed descriptions are as follows in conjunction with the accompanying drawings:

[0043] At present, traditional indoor sand grouting experimental research equipment is difficult to capture the flow pattern of grouting slurry in the process of sand grouting, and it is even more difficult to reproduce the behavior of sandy soil under different grout pressures, different groundwater pressures, and different ground stresses. Movement characteristics, therefore, research on indoor sand grouting tests is still relatively abstract. In order to truly reflect the movement characteristics of sand and soil during the grouting process and reproduce the movement and diffusion process of grouting grout, the present invention introduces a newly developed test device and its test method for simulating indoor sand and soil grouting. The i...

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Abstract

The invention discloses an indoor sand grouting simulation test device and a testing method thereof. The device comprises an air compressor, a storage barrel, a grouting barrel, a water tank, two CCDcameras, a laser, a synchronizer and a calculator, wherein the storage barrel is respectively connected with the air compressor and the grouting barrel; the water tank is connected with the water inlet of the grouting barrel, and is used for injecting water to the grouting barrel for simulating underground water; transparent sands for testing is stored in the grouting barrel; the two CCD cameras are respectively arranged under and beside the grouting barrel; and the projecting surface of the laser is vertical to the shooting direction of the CCD cameras. The indoor sand grouting simulation test device can be used for simulating different underground water pressures, different crustal stresses, different grouting pressures, different grain sizes, different grouting pipe diameters and otherexperimental work conditions; and furthermore, in a test, molten quartz sands and mineral oil in a certain proportion are used to prepare the transparent sands, and visualization of grout and sand motion tracing in a grouting test process can be realized by applying a PIV technology.

Description

technical field [0001] The invention relates to the technical field of water conservancy engineering, in particular to an indoor sand and soil grouting simulation test device and a test method thereof. Background technique [0002] Various basic problems need to be dealt with in the construction of water conservancy projects. Among them, the sandy soil stratum is very difficult to deal with due to its high permeability. The application of grouting technology can significantly reduce the permeability coefficient of sandy soil and improve the bearing capacity of the foundation. The development process of action modes such as densification or splitting cannot be directly observed, which makes the research on grouting theory based on laboratory tests far behind the needs of engineering practice. [1-3] , It also makes the grouting process more dependent on experience, and the room for improvement and improvement is limited. The relative lag of indoor grouting research seriously...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N11/00
CPCG01N11/00G01N2011/008
Inventor 崔溦刘灿平宋慧芳
Owner TIANJIN UNIV
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