公开(公告)号：US12276594B2

公开(公告)日：2025-04-15

申请号：US18693538

申请日：2022-12-19

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Tao Han ,  Yong Xue ,  Tingting Luo ,  Yu Zhang ,  Weihao Yang ,  Yansen Wang ,  Zhijiang Yang ,  Chi Zhang ,  Tao Zhang ,  Jiahui Huang ,  Haipeng Li

IPC: G01N17/00

Abstract: A shaft wall pressure corrosion test system includes a pressure bearing device, a confining pressure application device, and a seepage pressure application device. The confining pressure application device and the seepage pressure application device provide confining pressure and seepage pressure for the pressure bearing device, respectively, and keep the confining pressure and the seepage pressure constant on the pressure bearing device. In the system, axial pressure is applied to a piston by means of a hydraulic jack and is then transferred to a sample to complete axial pressure application. The confining pressure is applied to hydraulic oil by a manual pump in combination with an energy accumulator and then transferred to the sample to complete confining pressure application. The seepage pressure is applied to a corrosion solution by a water pump group in combination with an energy accumulator and then transferred to the sample to complete seepage pressure application.

公开(公告)号：US11333591B2

公开(公告)日：2022-05-17

申请号：US16341128

申请日：2018-06-25

Applicant: CHINA UNIVERSITY OF MINING AND TECHNOLOGY

Inventor： Baosheng Wang ,  Weihao Yang ,  Jiahui Huang ,  Tao Han ,  Chi Zhang ,  Zhijiang Yang ,  Tao Zhang ,  Yansen Wang ,  Yanlong Ren

IPC: G01N3/12 ,  F25C1/12 ,  G01N3/18

Abstract: The present invention relates to a tri-axial mechanical test apparatus and method for simulating the process of freezing the high-pressure water into ice. The tri-axial mechanical test apparatus comprises a main body loading system, a freezing system, and a sample test system; in the main body loading system, a flange, an axial pressure piston and a pressure-bearing shell are constituted to a loading main body, and the axial pressure and confining pressure are controlled directly by a tri-axial servo tester and indirectly by an oil-water separator respectively; in the freezing system, a circumferential freezing liquid circulation channel and a base freezing liquid circulation channel are connected to an external cold source for cooling and freezing, and a dissoluble shell is provided on the periphery of the sample to ensure the shape of ice; in the sample test system, a serial of optical fiber sensors in the sample is connected to an optical fiber data collector, to measure temperature and strain. The present invention cooperates with a tri-axial servo tester, an oil-water separator, an external cold source and an optical fiber data collector, so that the water can be frozen into ice under pressure under the confinement of a dissoluble shell that is dissolved after an ice sample is formed, and then the tri-axial mechanical test can be carried out directly in the original stress state after water is frozen into ice under pressure.