deep rock mass 深部岩体
deep rock mass engineering 深部岩体工程
deep rock-mass deformation 深部岩体变形
deep block rock mass 深部块系岩体
rock mass around deep tunnel 深部巷道围岩
Deep rock mass dues to it's particularity of physical geography environment and complexity of it's stress field has become a problem that must be carefully taken into consider and study in engineering practice.
深部岩体因其所处的地球物理环境的特殊性和应力场的复杂性因而是工程中必需认真考虑和研究的课题。
参考来源 - 深部岩体的蠕变损伤特性研究The capability of storage and returned energy is related with friction coefficient for the deep rock mass with tectonic level.
在具有构造等级的深部岩体介质的变形过程中,储能及返还性状与介质变形的摩擦系数有主要的关系。
参考来源 - 期刊学术社区·2,447,543篇论文数据,部分数据来源于NoteExpress
The effective reservoir of deep basin gas must have densified before the mass generation and expulsion of hydrocarbons from source rock, so do the "sweet points".
深盆气的有效储集层必须在烃源岩大量生、排烃之前就致密化,“甜点”也应在烃源岩大量生、排烃之前形成。
To the deep rock engineering, stress state of rock mass directly influences the stability of project.
对于深埋岩石工程,岩体的地应力状态直接关系到工程的稳定性。
The initial stress is one of the most important parameters for the design of underground rock engineering, and hydro-fracturing method is a robust technique for stress measurement in deep rock mass.
初始地应力状态是岩石地下工程设计中的重要参数,而水压致裂法是深部岩体应力测量的理想方法。
应用推荐