다단계압력 환경하에서의 결정질 암석의 절리면 거칠기 변화 분석

Junghae Choi; Heyjin Kim

doi:10.9720/kseg.2019.3.237

다단계압력 환경하에서의 결정질 암석의 절리면 거칠기 변화 분석

Translated title of the contribution: Analysis of the Fracture Roughness of Crystalline Rock under Multi-stage Stress Conditions

Junghae Choi, Heyjin Kim

Department of Earth Science Education

Human Resources Development Service of Korea

Research output: Contribution to journal › Article › peer-review

Abstract

The roughness changes on a fracture surface were analyzed via a multi-stage compression test under high temperatures to assess how the cracks in a rock mass affect groundwater movement. The analyzed samples consist of coarse granitic rocks from approximately 40 and 270 m depth, and fine granitic rocks from 500 m depth. The compression test was conducted on 20 × 40 × 5 mm samples using a loading system where the pressure increases in 10 MPa increments to 120 MPa. A high-resolution 3D confocal laser scanning microscope (CLSM) was used to observe the surface changes, including the roughness changes, at each pressure step. The roughness change was calculated based on the roughness factor. The experimental results indicate that the roughness of the fracture surface varies with rock type under the stepwise pressure conditions. These data provide a basis for predicting groundwater flow along rock fractures.

Translated title of the contribution	Analysis of the Fracture Roughness of Crystalline Rock under Multi-stage Stress Conditions
Original language	Korean
Pages (from-to)	237-249
Number of pages	13
Journal	Journal of Engineering Geology
Volume	29
Issue number	3
DOIs	https://doi.org/10.9720/kseg.2019.3.237
State	Published - Sep 2019

Keywords

confocal laser scanning microscope
deep underground disposal
fracture roughness
multi-stage compression test
roughness factor

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10.9720/kseg.2019.3.237

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title = "다단계압력 환경하에서의 결정질 암석의 절리면 거칠기 변화 분석",

abstract = "The roughness changes on a fracture surface were analyzed via a multi-stage compression test under high temperatures to assess how the cracks in a rock mass affect groundwater movement. The analyzed samples consist of coarse granitic rocks from approximately 40 and 270 m depth, and fine granitic rocks from 500 m depth. The compression test was conducted on 20 × 40 × 5 mm samples using a loading system where the pressure increases in 10 MPa increments to 120 MPa. A high-resolution 3D confocal laser scanning microscope (CLSM) was used to observe the surface changes, including the roughness changes, at each pressure step. The roughness change was calculated based on the roughness factor. The experimental results indicate that the roughness of the fracture surface varies with rock type under the stepwise pressure conditions. These data provide a basis for predicting groundwater flow along rock fractures.",

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author = "Junghae Choi and Heyjin Kim",

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year = "2019",

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AU - Choi, Junghae

AU - Kim, Heyjin

N1 - Publisher Copyright: © 2019 The Korean Society of Engineering Geology This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

PY - 2019/9

Y1 - 2019/9

N2 - The roughness changes on a fracture surface were analyzed via a multi-stage compression test under high temperatures to assess how the cracks in a rock mass affect groundwater movement. The analyzed samples consist of coarse granitic rocks from approximately 40 and 270 m depth, and fine granitic rocks from 500 m depth. The compression test was conducted on 20 × 40 × 5 mm samples using a loading system where the pressure increases in 10 MPa increments to 120 MPa. A high-resolution 3D confocal laser scanning microscope (CLSM) was used to observe the surface changes, including the roughness changes, at each pressure step. The roughness change was calculated based on the roughness factor. The experimental results indicate that the roughness of the fracture surface varies with rock type under the stepwise pressure conditions. These data provide a basis for predicting groundwater flow along rock fractures.

AB - The roughness changes on a fracture surface were analyzed via a multi-stage compression test under high temperatures to assess how the cracks in a rock mass affect groundwater movement. The analyzed samples consist of coarse granitic rocks from approximately 40 and 270 m depth, and fine granitic rocks from 500 m depth. The compression test was conducted on 20 × 40 × 5 mm samples using a loading system where the pressure increases in 10 MPa increments to 120 MPa. A high-resolution 3D confocal laser scanning microscope (CLSM) was used to observe the surface changes, including the roughness changes, at each pressure step. The roughness change was calculated based on the roughness factor. The experimental results indicate that the roughness of the fracture surface varies with rock type under the stepwise pressure conditions. These data provide a basis for predicting groundwater flow along rock fractures.

KW - confocal laser scanning microscope

KW - deep underground disposal

KW - fracture roughness

KW - multi-stage compression test

KW - roughness factor

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다단계압력 환경하에서의 결정질 암석의 절리면 거칠기 변화 분석

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Keywords

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