For basins under the action of different tectonic forces, types of stress environment, their distribution and the genetic mechanics of main structural characters have been studied.
分析了不同性质构造力作用下含油气盆地的地应力类型和分布规律,从机理上说明了各类盆地的构造及断裂特点。
The tectonic setting of underground mining engineering is constituted by structural medium, fractures and tectonic stress in influence, restriction and cooperation one another.
构造介质、构造界面、构造应力相互影响,相互制约,协同作用,构成了地下采掘工程的构造环境。
Tectonic stress result in increasing diameter and the stack height of basic structural unit(BSU), and decreasing the BSU lamellae spacing.
结果表明,构造应力作用提高了“煤晶核”BSU的延展度和堆砌度,使面网间距减小。
Under the same conditions of structural-material complex, fracture system, and mining scale, the ground damage degree is related to the tectonic stress field.
在构造介质、构造界面特征相似,开采强度也相同的条件下,煤矿区采动损害与其所处的构造应力场性质有关。
Different types of structural belts developed owing to distinct tectonic stress field during the formation and reformation stage of the Hailaer-Tamtsag basin.
海拉尔-塔木察格盆地在成盆期和改造期不同构造应力场作用下形成不同类型的构造带和配置关系。
The basic control factors to the regular evolution of the structural style are geo-tectonic environment, basement nature, stress state, physical nature of rocks and stage of tectonic evolution.
控制柴达木盆地构造样式规律性的主要因素是区域构造环境、盆地基底性质、应力作用方式和岩石力学性质等。
The plane distribution of the structural traps is controlled by stress, tectonic distortion and faults.
构造圈闭的平面展布主要受应力作用状况、构造变形程度和断裂发育状况等因素控制。
The structural pattern of block J is related to its tectonic background, basement topography and tectonic stress.
J区块这一构造特征与其所处的构造背景、基底形态和构造应力作用有关。
It is usually regarded as a main part of geomechanics to study tectonic stress field. And the study usually began with the research of structural feature.
构造应力场的研究通常是作为地质力学的主体部分,通过分析构造形迹入手来进行研究的。
It is usually regarded as a main part of geomechanics to study tectonic stress field. And the study usually began with the research of structural feature.
构造应力场的研究通常是作为地质力学的主体部分,通过分析构造形迹入手来进行研究的。
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