IMPROVEMENT OF THE MECHANICAL SHEAR MODEL FOR ROCK JOINTS CONSIDERING THE BEARING EFFECT
スポンサーリンク
概要
- 論文の詳細を見る
A theoretical mechanical shear model for single rock joints has been developed which can systematically express the shear behavior of rock joints by inputting the normal confining stress, the uniaxial compressive strength of the intact material, information on the geometry of the rough joint surface, and the basic friction angle. This model is able to show the process by which the shear stress increases, reaches the peak stress, decreases (strain softening), and then gradually arrives at the residual state. Moreover, variations in the joint surface roughness can be presented in the shear process. In some cases of comparisons between the experimental and the analytical results, errors have been found in the residual state. Therefore, the authors have given thought here to the reason for the occurrence of the bearing effect of the shaved powder material in relation to these errors. In this paper, the mechanical shear model is improved in terms of the bearing effect. Then, by comparing the experimental results with the analytical results, the validity of the modified model is discussed.
- 社団法人地盤工学会の論文
著者
-
KISHIDA KIYOSHI
Department of Urban Management, Kyoto University
-
Kishida Kiyoshi
Kyoto Univ. Jpn
-
Kishida Kiyoshi
Department Of Urban Management Kyoto University
-
SAKURAI YOHEI
Ministry of Land, Infrastructure and Transport
-
Sakurai Yohei
Ministry Of Land Infrastructure And Transport
関連論文
- FLOW ON A SINGLE ROCK FRACTURE IN THE SHEAR PROCESS AND THE VALIDITY OF THE CUBIC LAW EXAMINED THROUGH EXPERIMENTAL RESULTS AND NUMERICAL SIMULATIONS
- IMPROVEMENT OF THE MECHANICAL SHEAR MODEL FOR ROCK JOINTS CONSIDERING THE BEARING EFFECT