1.
RESEARCH ON ANISOTROPIC CHARACTERISTICS AND SIZE EFFECT OF COLUMNAR JOINTED ROCK MASS
柱状节理岩体各向异性特性及尺寸效应研究
2.
SIMULATION OF COMPRESSIVE FAILURE PROCESS OF COLUMNAR JOINTED ROCK MASS AND ITS FAILURE MECHANISM ANALYSIS
柱状节理岩体压缩破坏过程模拟及机制分析
3.
A Study of Structure and Structural Plane Fractal of Basalt Rock Mass with columnar joints
柱状节理玄武岩岩体结构与结构面的分形研究
4.
SIZE EFFECT ON SHEAR STRENGTH OF BASALT ROCK MASS WITH COLUMNAR JOINTS
柱状节理玄武岩体抗剪强度参数尺寸效应研究
5.
Baihe Jinsha River Hydropower Station Columnar Joints Basalts Rockmass Structural and Quality Classification;
金沙江白鹤滩水电站柱状节理玄武岩岩体结构及质量分级研究
6.
STRENGTH ESTIMATION OF COLUMNAR JOINTED BASALTIC MASS BASED ON GEOLOGICAL STRENGTH INDEX
基于地质强度指标法的柱状节理玄武岩体力学强度估计
7.
The Columnar Jointing in Cretaceous Clastic Rocks and the Rotation of Rift Shoulder in Sudan
苏丹白垩纪碎屑岩中的柱状节理与裂谷肩旋转
8.
Study about the Deformation Properties of the Columnar Joints Basalts for the Foundation of the High Arch Dam of Baihetan Hydropower Station Jinsha River;
金沙江白鹤滩水电站高拱坝坝基柱状节理玄武岩变形特性研究
9.
"Columnar" joint blocks are formed by two sets of joints.
“长柱状”节理块是由两组节理组成。
10.
NEW FORMULAE FOR VOLUMETRIC JOINT COUNT J_v OF JOINTED ROCK MASS
节理岩体体积节理数J_v的新计算公式
11.
Application of GSI in Evaluating the Mechanical Parameters of Jointed Rock Mass--A case study of horizontal ore pillar in No.2 Mine Section of Jinchuan
GSI在节理化岩体力学参数评价中的应用——以金川二矿区水平矿柱为例
12.
Improved ubiquitous-joint model and its application to underground engineering in layered rock masses
改进的遍布节理模型及其在层状岩体地下工程中的应用
13.
Creep model for rock mass considering normal creep of rock joint plane
考虑节理面法向蠕变的节理岩体蠕变模型
14.
Joint surfaces of the columns do not show slickensides or any evidence of movement.
柱状节理面上未见断层擦痕或任何移动的证据。
15.
The normal deformation of is one of the important characters of rock joints.
法向变形是岩体节理的重要特征之一。
16.
Research on Multi-parameter Inversion for Rock Mass Joint Using Reflected Wave;
岩体节理多参数反演的反射波法研究
17.
Study on the Shaping Effect of Jointed Rock Mass under Blasting in Tunnel
节理裂隙岩体隧道爆破成型效果研究
18.
Fast Evaluation of Mechanical Parameters of jointed Rock Mass Based on RMR
基于RMR的节理岩体力学参数快速评价