排序方式: 共有68条查询结果,搜索用时 15 毫秒
51.
52.
53.
Introduction The degree of earth-resistivity anisotropy was described (MAO, et al, 1995, 1998) as follows: S=|1\nn∑I=1(ρSN\ρEW)I|-1|×103 n=6(1) whereρNS and ρEW are monthly mean values of earth resistivity in the direction of NS and EW, respectively, S is the half-year value. Equation (1) shows that if ρNS=ρEW, then S =0 and the electrical property of medium is isotropic; if ρNS≠ρEW, then S≠0 and the electrical property of medium is anisotropic. When S increases, the anisotropy of electrical property of medium is enhanced. Because the rightside of equation (1) is absolute value and the possibility ofρNS>ρEW and ρNS<ρEW can be different at different stations, the increase or decrease of S cannot reflect the relative changes between ρNS and ρEW. FENG, et al (2000) defined S as follows: 相似文献
54.
55.
据沂水观测井的构造背景、环境条件和泉的成因结果, 经过前兆异常现场落实和采样分析, 并结合活动断裂、地震活动以及流磁观测结果对山东沂水水氡自2001年以来的异常变化从形成机制上进行了分析研究。结果表明, 沂水观测井位于沂水-汤头断裂与沂水-沂源断裂交汇部位, 系断层上升泉, 具有应力易集中的地质构造环境; 沂水水氡的下降异常变化与沂沭断裂带中南段的应力活动增强和沂水-汤头断裂与沂水-沂源断裂构造活动加剧有关。 相似文献
56.
57.
58.
59.
60.