1) Xiaojiang fault zone
小江断裂带
1.
Co-seismic changes of ten wells around Xiaojiang fault zone aroused by four Ms>8.
收集并整理了云南地区小江断裂带附近十口流体观测井对印度尼西亚苏门答腊4次8级以上地震的响应资料,并对各观测井的记震能力及其流体测项间的响应协调性进行了统计分析。
2) Xiaojiang activity fault zone
小江活动断裂带
1.
Xiaojiang activity fault zone has a long-standing history of formation and development,its activity had induced very frequent seismicity and various geologic hazards.
小江活动断裂带是一条形成与发育历史久远的断裂带,它的活动诱发了十分频繁的地震活动和多种类型的地质灾害。
3) Xiaojiang Fault
小江断裂
1.
Relation between the 2005 Huize M5.3 Earthquake and the Seismicity of Xiaojiang Fault;
2005年会泽5.3级地震与小江断裂地震活动关系研究
2.
Modern activity in the southern and central parts of the Xiaojiang fault in Yunnan;
云南小江断裂中南段现今活动特征
3.
The middle section of the Xiaojiang fault zone located in Yunnan Province is branched into east and west two faults.
小江断裂带中段东西支断裂间存在的NE向断裂是在第三纪NE向断裂的基础上,于第四纪中晚期开始新的活动,并具有左旋走滑运动的特征,有些在全新世仍有活动。
4) Ganjiang fault zone
赣江断裂带
1.
On the basis of an analysis of geological and geophysical data obtained by petroleum exploration in the South Poyang depression in recent years,the authors propose that the basining and tectonic evolution of the South Poyang depression were controlled by the activities of the Ganjiang fault zone under the constraint of the Yanshanian tectonic framework.
通过对近几年南鄱阳坳陷油气勘探取得的地质、地球物理资料的分析,认为该盆地形成和构造演化是在燕山期古构造格局的限制下,受控于赣江断裂带的活动,以走滑-伸展为主要特征。
5) MFZ
岷江断裂带
1.
Based on the techno-platform of Geographic Information System (GIS), by conversing from raster to vector of papery topographic map, this paper realizes the construction of digital elevation database of Minjiang Fault Zone (MFZ).
研究以地理信息系统(GIS)软件为技术平台,通过纸质地形图栅格-失量转换,实现岷江断裂带地区高程数据库建立;同时,利用矢量化地形数据,构建了研究区的高分辨率数字高程模型(DEM),从而完成对岷江断裂带地区的构造地貌模拟,为中国东西部地貌边界带新构造研究提供了相关技术支持。
6) Youjiang Fault zone
右江断裂带
1.
The Youjiang Fault zone is located in the Guixi (Western Guangxi) fault block region.
右江断裂带地处桂西断块区,有记载以来沿带曾发生40~50级地震15次,属中强地震带。
补充资料:断裂带
亦称“断层带”。有主断层面及其两侧破碎岩块以及若干次级断层或破裂面组成的地带。在靠近主断层面附近发育有构造岩,以主断层面附近为轴线向两侧扩散,一般依次出现断层泥或糜棱岩、断层角砾岩、碎裂岩等,再向外即过渡为断层带以外的完整岩石。断层带的宽度以及带内岩石的破碎程度,决定于断层的规模、活动历史、活动方式和力学性质,从几米至几百米甚至上千米不等。一般压性活压扭性断层带比单纯剪切性质的断层带宽。在一些大型的断层带中,由于被后期不同方向的断层切错,和夹有一些未破碎的大型岩块,只是断层带的结构趋于复杂化,从而在近代的断层活动中容易形成运动的阻抗,是应力易于积累和发生地震的场所。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条