1)geological structure地质构造
1.Multi-wave detecting technique for geological structure and abnormity between tunnel and its application in the coalfield;煤矿井巷间地质构造及其异常多波联合探测技术与应用
2.Countermeasures and Influence of Geological Structure on Gas Outburst in GaochengCoal Mine;地质构造对告成矿瓦斯突出的影响及对策
3.Analysis on geological structure features and fracture structure water flowing ability in Liuqiao No.1 Mine;刘桥一矿地质构造特征及断裂构造导水性分析
英文短句/例句
1.Tectonic Framework and Tectonic Evolution of the Shandong Province;山东省大地构造格局和地质构造演化
2.The Study of Seismic Acquisition Method in Complicated Structural Background;地质构造复杂地区地震采集方法研究
3.AERIAL REMOTE SENSING INTERPRETATION FOR GEOLOGICAL STRUCTURE IN SHENYANG-FUSHUN REGION沈阳─抚顺地区航空遥感地质构造解译
4.Geophysical Field and Deep Tectonic Features of East China Sea;东海地球物理场及深部地质构造研究
5.Establishing Geological Structure Land and Extending Bridge for Research and Teaching;创建地质构造园地 架设科研教学桥梁
6.GEOTECTONIC FEATURES OF THE COMPLEX IN THE METAMORPHOSED CORE OF THE NALATI TECTONIC ZONE IN WESTERN TIANSHAN,SINKIANG新疆西天山那拉提构造带变质核部杂岩地质构造特征
7.GEOLOGIC-TECTONIC EVOLUTION AND EVAPORITE FORMATION OF MESOZOIC-CENOZOIC ERA IN YUNNAN云南中、新生代地质构造演化与蒸发岩建造
8.Flight lines are roughly perpendicular to geologic strike.飞行路线大致垂直于地质构造的走向。
9.Study of Control Function of Geological Structures on Coal-mining-induced Subsidence;地质构造对采煤沉陷的控制作用研究
10.Study on the Influence of Geological Structure to Coal and Gas Outburst;地质构造对煤与瓦斯突出的影响研究
11.Geological Structure Characteristic Study in Jinyuan Coalmine, Tengnan Coalfield滕南煤田金源煤矿地质构造特征研究
12.Geological Structural Rule Analysis of Longtoukeng Minefield in Jingdong Coal Mine京东矿龙头坑井田地质构造规律分析
13.Small Tectonic Rayleigh Wave Detection Technology of Dongrong NO.3 Colliery东荣三矿小地质构造瑞利波探测技术
14.Analysis of Geological Structure to Strengthen Exploration of Coal to Increase Recovery Rate加强地质构造探查 提高煤炭回收率
15.schistose structure【地质】片状构造, 层状结构
16.Neotectonic activities in the Qiangtang Basin and their geological and environmental effects羌塘盆地新构造活动与环境地质效应
17.Diapir structures and their significances on hydrocarbon accumulation in the offshore Bohai Bay Basin渤海地区底辟构造及其油气地质意义
18.(geology) changed in constitution or structure or composition by metamorphism.(地质学)因变质作用在构造、结构或组成上改变的。
相关短句/例句
geologic structure地质构造
1.Measurement of in-situ stress and relationship between the stress and geologic structure in Datong mining area,China;大同矿区地应力测量及其与地质构造的关系
2.Research of geologic structure and coal and gas outburst in panji No.3 mine huainan coal-mine area;淮南矿区潘三矿地质构造及煤与瓦斯突出特征
3.Thermal recovery numerical analysis on stresses of bended pipe in horizontal well of complex geologic structures复杂地质构造对热采水平井弯管段套管应力影响的数值分析
3)geology structure地质构造
1.Analysis and prevention technology for roof fall accident at mining coal face caused by geology structure;地质构造引发采面冒顶事故原因分析与防治技术
2.Application of dynamics construction methods of roadway in geology structure zone地质构造带巷道动态化施工方法的应用
3.Based on geo-dynamic zoning method, the relation between gas status of Huainan mining area and regional geology structure was analyzed, the conclusion is drawn that Huainan coal field lies between two cave region, which has dominant effect on the gas status.用地质动力区划方法,分析了淮南煤田瓦斯赋存状态与区域地质构造的关系,认为淮南煤田处在两个相交的凹地区域,它决定了淮南煤田的含瓦斯性。
4)geological structures地质构造
1.Forecast and application of geological structures is the mine;矿井地质构造预测与应用
2.Based on the characteristics of geological structures in Nansha Islands,the free air gravities of four profiles N2, N9, N10, N11 were selected from NanshaIslands.根据南沙群岛地质构造的特征,选择4条具有代表性的重力测线N2,N9,N10和N11的自由空间重力异常,进行福里哀频谱值的计算并研究振幅谱值的分布规律,确定61。
5)geological tectonics地质构造
1.Geological Tectonics and its Seismicity in Putian City;莆田市地质构造及其地震活动
2.Application of mine penetration CT imaging technology to probe geological tectonics of fully mechanized top coal caving mining face;坑透CT成像技术在工作面地质构造探测中的应用
3.The relation between geological tectonics and coal gas outbursts in Pingdingshan and Anyang mine areas in Henan Province and Nantong and Tianfu mine areas in Sichuan Province was studied.对河南平顶山、安阳和四川南桐、天府矿区地质构造与煤和瓦斯突出的关系研究表明,地质构造控制突出的分布主要有四种作用类型,不同构造具有不同的突出倾向性。
6)geological formation地质构造
延伸阅读
地质构造地质构造geologicalstructure地壳或岩石圈各个组成部分的形态及其相互结合的方式和面貌特征的总称。简称构造。任何构造都是岩石或岩层受了内力或外力作用下产生的原始位态或面貌,如层理、粒序层、波痕等各种原生构造,以及各种原始位态或面貌的改变,即变形与变位,如各种次生的褶皱、节理、断层、裂谷、俯冲带、转换断层等。构造尺度按构造空间范围大小所划分的级别。一般分为大、小、微等尺度级别。大尺度构造是远远超出露头范围的区域性构造和板块构造,小尺度构造是在露头范围或手标本上能窥其整体形态的小型构造,微尺度构造是在光学显微镜下才能认识的矿物之间或矿物晶粒变形表现出的显微构造和在电镜下才能观察到的超微构造,如晶格位错。构造层次地壳内部不同深度处的变形性质和变形机制有明显差异的构造分层性。根据造山带中构造变形随深度而变化的规律,可将由地表至深处地壳的变形分为3个构造层次。①上部构造层次(又称表构造层次)。位于地壳浅表部分,主要变形性质为脆性变形,主导变形机制是脆性剪切作用,是断层分布区。②中间构造层次(又称浅构造层次)。其深度介于4千米至10~15千米,主要发生弹塑性变形,主导变形机制是弯曲作用,是等厚褶皱的分布区。③下部构造层次(又称深构造层次)。其深度在10~15千米以下,主要发生塑性变形,主导变形机制是剪切作用和压扁作用,是相似褶皱并伴有广泛发育的劈理分布区;这个层次的下部物质韧性大大提高并接近熔融流变状态,发育韧性剪切带和不规则的柔流褶皱。构造类型各种构造均可按形态和成因的不同而分类。各种构造又可从不同角度进行归并分类,如按构造形成时间归并为原生构造和次生构造两类。原生构造,指成岩过程中形成的构造,岩浆岩的原生构造有流面、流线和原生破裂构造。沉积岩的原生构造有层理、波痕、粒序层、斜层理、泥裂、原生褶皱(包括同沉积背斜)和原生断层(包括生长断层)等。次生构造指岩石形成以后受构造运动作用产生的构造,有褶皱、节理、断层、劈理、线理等。又按几何要素可将构造归并为面状构造和线状构造两类。面状构造是以几何意义的面来表征的构造,如褶皱(轴面)、节理(面)、断层(面)、劈理(面)等。线状构造是以几何意义的线所表征的构造,如褶皱的枢纽、断层的擦痕、非等轴状矿物的定向排列或二构造面交线所构成的小型线理、窗棂构造及大型杆状构造的定向排列所构成的大型线理等。又按面状或线状构造在地质体中的分布特点归并为透入性构造和非透入性构造两类。透入性构造指在地质体一定尺度上连续、均匀且按一定格式弥漫分布的面状或线状构造,为劈理、片理、片麻理及小型线理。非透入性构造指非均匀、不连续且多以分隔性方式产出于地质体中的面状或线状构造。如节理面、断层面和大型线理。构造组合在统一的构造运动过程中所产生的多个密切联系的构造集合体。一个构造组合中的各成员构造可以是同类型的构造,如地堑是由两条(或两组)走向相同、倾向相反的正(或逆)断层组合而成,共轭节理是由两组不同方位的剪节理交叉组合而成;也可以是不同类型的构造,如滑脱构造是由盖层的褶皱和盖层与基底之间的顺层滑动的断层组合而成。不论哪一种组合,其各成员构造必须是在同一时期由同一种性质的区域应力作用所产生的有成因联系的构造。任何一种构造组合均有其形态上的总体几何特征或总的风格,这就是构造样式。一定的构造样式常常是在一定的构造作用和地质背景下形成的。因此根据构造组合及其构造样式可以分析其形成条件。
