A rock joint exerts significant influences on the rock mass behavior in terms of thermal, hydraulic, and mechanical (THM) aspects. Therefore, its features should be thoroughly investigated in various rock mechanical projects, such as high-level radioactive waste (HLW) disposal repository, tunnel, and rock slope. Meanwhile, it is essential to guarantee the safety of the disposal repository for a very long period of time and it should prepare measures for various risks, which may possibly encounter during that period. In general, direct shear tests for a rock joint are conducted to investigate the possibility of frictional sliding of the joint under specific loading conditions or to predict the shear strength of the joint. However, it is necessary to consider whether regional sliding of a rock joint or reactivation of a fault might occur due to an earthquake or redistribution of the in-situ stresses because the expected operation period of the repository is quite long, and various situations can happen. A slide-hold-slide test for a rock joint is a practical test that can investigate the time-dependent behavior or frictionalhealing of a joint. The test enables an estimation of the stress build-up phenomenon after strain energy release in a quantitative manner. In this study, a series of slide-hold-slide tests were carried out in order to investigate the characteristics. Joint specimens were made from mortar, which is a rock-like and brittle material, so as to consider the effect of joint roughness and to secure the reproducibility of the tests. At the same time, mechanical conditions as well as thermal and hydraulic were applied in order to take the environment of the repository into account. As a result, the behavior of shear stress recovery was observed, and the effects of THM coupled condition on the recovery were investigated. This study presents fundamental results of the experiments, and further research outcomes, including time dependent behavior of a joint, will be presented sequentially.

류별 각 성분의 특성에 따른 SUV의 변화를 비교·분석하고자 하였다. 실험장비는 Discovery 690 PET/CT(Ge)와 NEMA NU2- 1994 PET phantom를 이용하였고, 팬텀에 증류수 2/ 3를 채워 넣은 후 방사성동위원소(18F-FDG 37 MBq)와 각각의 CT와 MRI 조영제를 순차적으로 주입하여 팬텀을 고르게 교반하고 다시 증류수를 가득 채운 후 기포가 생기지 않게 하였다. 방출스캔은 FDG 또는 FDG와 혼합한 조영제를 넣고 40분에 15분 동안 스캔하였으며, 투과스캔은 CT로 관전압 120 kVp, 관전류 40 mA, 회전시간 0.5 sec, 단면두께 3.27 mm, DFOV 30 cm의 조건으로 스캔하였다. 분석방법으로 정량분석은 각각 10, 15, 20, 25, 30번째 slice에서 region of interest (ROI)를 설정하여 각각 SU Vmean, SUVmax를 구하였다. 결과적으로 순수 FDG 영상과 비교에서 MRI 조영제를 혼합한 3종류의 영상 모두에서 SUVmean 가 높게 측정되었으나 통계적 유의성은 없었고, SUVmax 에서는 유의한 결과를 얻었다. 또한 4종류의 CT 조영제 영상은 SUVmean, SUVmax 모두 유의한 결과를 얻었다. PET/CT는 영상의 정확도를 위해 감쇠 보정은 다양한 방법으로 시행되고 있지만 CT와 MRI 조영제는 감쇠보정 시 영상의 왜곡에 의한 진단적 가치를 저하시킬 수 있다. 이러한 이유로 진료 당일 여러 종류의 검사를 시행하기 전 반드시 선행되어야 할 검사를 선별하여 서로 영향을 주지 않도록 함으로서 고객에게 차별화된 양질의 의료서비스를 제공해야 한다.