Fully-rigid true triaxial system for rocks and deep rock temperature stress coupling simulation system

A true triaxial, rigid technology, applied in the field of rock full rigid true triaxial system and deep rock temperature stress coupled simulation system, can solve the problem of inability to simulate high temperature underground environment

Pending Publication Date: 2018-04-20
INST OF ROCK AND SOIL MECHANICS - CHINESE ACAD OF SCI
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  • Abstract
  • Description
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  • Application Information

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Problems solved by technology

At present, most of the rock true triaxial experimental instruments used to simulate the stress state adopt a composite loading method, that is, a rigid plate is used for axial loading, and flexible plates are used for the other two sides and four sides, or rigid plates are used for two corresponding sides, and rigid plates are used for the other one. Flexible plates are used on both sides, which requires hydraulic oil to be injected into the pressure chamber to load the rock sample to achieve confining pressure, so it is impossible to simulate the high temperature underground environment above 200 °C

Method used

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  • Fully-rigid true triaxial system for rocks and deep rock temperature stress coupling simulation system
  • Fully-rigid true triaxial system for rocks and deep rock temperature stress coupling simulation system
  • Fully-rigid true triaxial system for rocks and deep rock temperature stress coupling simulation system

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no. 1 example

[0032] see figure 1 , this embodiment provides a rock fully rigid true triaxial system 10, which is used for stress path simulation experiment research. Moreover, the rock fully rigid true triaxial system 10 can realize the stress path simulation experiment research under the environment of 800° C. through the rigid loading method, and can ensure the reliability of the simulation experiment under the high temperature condition.

[0033] Please refer to figure 1 with figure 2 , wherein the rock full rigid true triaxial system 10 includes a rigid true triaxial system 100 and a temperature control system 200 . The rigid true triaxial system 100 is used to provide rigid loading to provide rigid extrusion force to the test sample to simulate the stress path. The temperature control system 200 is used to heat the test sample, so that the simulated ambient temperature of the test sample can reach a specified temperature, so as to facilitate test simulation.

[0034] In the prior...

no. 2 example

[0051] Please refer to image 3 with Figure 4 In this embodiment, a deep rock mass temperature-stress coupling simulation system 11 is provided, which includes a control system 300 and the rock full-rigid true triaxial system 10 provided in the first embodiment. The control system 300 is respectively connected to the driving system and the temperature control system 200, and the control system 300 is used to control the driving system to respectively drive the first loading shaft 110, the second loading shaft 120 and the third loading shaft 130 to apply pressure to the test sample, and can pass The control system 300 controls the driving system to drive the first loading shaft 110 , the second loading shaft 120 and the third loading shaft 130 to apply pressure to the test sample. In addition, the control system 300 is used to detect the temperature of the temperature control system 200 so as to detect and regulate the temperature of the temperature control system 200 in real...

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Abstract

The invention discloses a fully-rigid true triaxial system for rocks and a deep rock temperature stress coupling simulation system, relating to the field of geotechnical engineering. The fully-rigid true triaxial system comprises a rigid true triaxial system and a temperature control system, wherein the rigid true triaxial system comprises a first loading shaft, a second loading shaft and a thirdloading shaft which are vertical two by two; a driving system is connected to the first loading shaft, the second loading shaft and the third loading shaft respectively to drive the first loading shaft, the second loading shaft and the third loading shaft to respectively move along the extension directions so as to extrude test samples; and the temperature control system is fit to the test samplesand is used for heating the test samples. The deep rock temperature stress coupling simulation system adopts the fully-rigid true triaxial system for the rocks. According to the fully-rigid true triaxial system for the rocks and the deep rock temperature stress coupling simulation system, a stress path simulation experiment can be realized in a high temperature environment of 800 DEG C.

Description

technical field [0001] The invention relates to the field of geotechnical engineering, in particular to a rock full rigid true triaxial system and a deep rock mass temperature-stress coupling simulation system. Background technique [0002] True triaxial stress path simulation is one of the important experimental means to study rock mechanical properties, and stress path simulation experiments under high temperature conditions are of great significance to the study of rock mechanical properties under special engineering geological conditions in deep. With the exploitation of shale gas, deep geothermal resources and other resources in recent years, there is an urgent need for a device that can simulate different high geostress states at high temperatures, which poses a big challenge to the current experimental principles and experimental instruments. At present, most of the rock true triaxial experimental instruments used to simulate the stress state adopt a composite loading...

Claims

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Application Information

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IPC IPC(8): G01N3/18
CPCG01N3/18G01N2203/0226G01N2203/0256G01N2203/0075G01N2203/0019G01N2203/0048G01N2203/0003
Inventor 胡大伟马啸陈四利周辉张传庆卢景景朱勇杨凡杰
Owner INST OF ROCK AND SOIL MECHANICS - CHINESE ACAD OF SCI
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