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初步的野外调查表明,2001年11月14日青新交界8.1级地震的地表破裂带位于昆仑山南麓,西端可能终止于布喀达坂峰,东端点距青藏公路以东70km.主破裂带总长度可达350km,总体走向N80°~85°W.具明显的左旋水平走滑运动性质,最大左错量为6m.宏观震中初步定在库赛湖东约30km一带,震中区烈度定为Ⅺ度根据初定宏观震中的位置,建议将该地震命名为库赛湖地震. 相似文献
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昆仑山口西8.1级地震调查 总被引:2,自引:0,他引:2
据我国地震台网测定 ,2 0 0 1年 1 1月 1 4日在新疆、青海交界的昆仑山布喀达坂峰附近 ,即昆仑山口西发生MS8 1地震 ,震中位于北纬 3 6 2°,东经 90 9°。这是自 1 951年 1 1月 1 8日西藏当雄 8级大地震以来 ,在我国大陆发生的最大一次地震。震后 ,中国地震局工程地震研究中心同铁道部第一勘察设计院、中国地震局兰州地震研究所迅速组成联合调查组对地震地表破裂带和工程震害进行了调查。野外考察表明 ,昆仑山口西 8 1级地震位于昆仑山南麓近东西向展布的昆仑山断裂上 ,这条地震断层以左旋走滑破裂为主 ,兼有少量的逆冲滑动分量 ,最大左… 相似文献
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2003年12月22日当地时间上午约11时16分,美国加州发生里氏6.5级地震,震中位于加州中部海滨城市圣西蒙市以东大约11km处,距震中以南大约400km的洛杉矶市和距震中以北大约300km的旧金山市都有明显震感。在地震袭来时,距震中 相似文献
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2021年5月22日青海果洛州玛多县发生MS7.4地震,震中位于( 34.59°N, 98.34°E) ,其震源机制解显示该地震为高倾角走滑型(张喆,许立生, 2021).玛多地震的发震构造为昆仑山口—江错断裂,是东昆仑断裂的一条分支断裂(王未来等, 2021).玉树地震台位于甘孜—玉树断裂附近.玛多地震震中和玉树地震台均位于巴颜喀拉次级地块内,玉树地震台位于巴颜喀拉地块的南边界.此次地震震中处于玉树地震台的NE方向,距巴颜喀拉地块北边界85 km (图1). 相似文献
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2015年4月25日,尼泊尔地区发生MW7.9地震,震中位于28.1°N,84.7°E.为了详细地研究此次破坏性极强的地震的破裂过程,本文利用多台阵压缩传感方法,使用了阿拉斯加、欧洲和澳大利亚三个台网的共计179个台站的远场P波垂直分量的数据来反演,结果表明本次地震的破裂过程是一个清晰的南东东方向的单侧破裂,破裂尺度约为105km,整体持续时间约为58s.在破裂初始的前15s,能量辐射基本围绕在震源附近,16s后破裂开始向南东东方向以1.9km·s-1的速度破裂.释放能量最大的时间为第38s,位于距震中70km处.该位置从第29秒开始破裂,并持续释放能量长达30s之久. 相似文献
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通过对1944年初青海乐都瞿昙寺地震史料的搜集和现场考察、采访,获得了此次地震更加丰富的资料,进而核定了此次地震的基本参数。研究结果表明:此次地震的震中位于青海省乐都县以南的瞿昙寺附近,震中位置大致为36.3°N、102.2°E,精度2类,误差小于等于25 km,震级约5.5级,震中烈度可达VII度。此次地震位于拉脊山北麓与西宁—民和盆地的交界部位,靠近拉脊山北缘断裂带附近,地震等震线长轴方向呈近东西向,与拉脊山北缘断裂走向大体一致,综合分析认为,拉脊山北缘断裂的最新构造活动可能导致了此次地震的发生。 相似文献
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有关钢结构地震作用的讨论 总被引:2,自引:0,他引:2
简要介绍了6本国内标准(TJ11-74、TJ11-78、GB J11-89、GB50011-2001、JG J99-98、CECS160:2004)有关钢结构地震作用的计算方法,包括荷载组合方法和底部剪力法。通过归一化后的结果比较,评价了各本标准地震作用的大小。分析表明,除JG J99-98和GB50011-2001 2本标准由于考虑钢结构的阻尼比为0.02或0.035后,其地震作用有显著增大外,其它4本标准的地震作用处于接近的水平。考虑到钢筋混凝土和砖石结构等的地震作用水平在新旧抗震规范中并无多大变化,过分提高抗震性能较优的钢结构的地震作用水平显然是不合理的。 相似文献
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基于VTK的医学图像系统研究 总被引:6,自引:0,他引:6
医学三维数据场可视化是当前科学计算可视化应用的重点。本文论述了可视化工具包VisualizationToolkit(VTK)的主要特点,介绍了三维医学可视化系统实现的原理和方法。根据一系列人体断面图像,应用VTK实现了三维医学图像重构,对重构后的三维图像进行解剖分析;并实现对人体的二维图像逐帧浏览及柱状统计。实验结果表明,VTK具有使用灵活,功能强大的优点,是医学三维数据场可视化的有力工具。 相似文献
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Occurrence of water ponding on soil surfaces depending on infiltration rates on Mongolian rangeland 
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下载免费PDF全文 Katori Miyasaka Sho Shiozawa Kazuhiro Nishida Siilegmaa Batsukh Shuichiro Yoshida Undarmaa Jamsran 《水文研究》2017,31(22):3996-4005
The occurrence of water ponding on soil surfaces during and after heavy rainfall produces surface run‐off or surface water accumulation in low‐lying areas, which might reduce the water supply to soils and result in a reduction of the soil water that plants can use, especially in arid climates. On Mongolian rangeland, we observed ponded water on the surface of a specific soil condition subjected to a heavy rainfall of 30 mm/hr. By contrast, ponded water was not observed for the same type of soil where livestock grazing had been removed for 6–8 years via a fence or for nearby soil containing less clay. We measured the infiltration rate (the saturated hydraulic conductivity of the surface soil, Ks) of the three sites by applying ponded water on the soil surface (an intake rate test). The results showed that Ks in the rangeland was lower than the rainfall intensity in the site where water ponded on the soil surface; however, Ks of the soil inside of the fence has recovered to 3 times that of the soil outside of the fence to exceed the rainfall intensity. Heavy rainfall that exceeds the infiltration rate occurs several times a year at the livestock grazing site where we observed ponded water. Slight water repellency of the soil reduces rain infiltration to increase the possibility of surface ponding for the soil. 相似文献
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基于地震动参数的建筑物震害研究 总被引:15,自引:3,他引:12
本文介绍了多步简化的push—over(MSP)方法,引导出求解单体建筑物易损性指数和群体建筑物易损性指数的办法,并通过建筑物平均易损性指数曲线,来评价城市的总体抗震性能。本文不采用过去以烈度为地震输入的易损性评定方法,采用地震动参数作为城市建筑物易损性的评定标准。给出的易损性指数曲线,可用来查找不同地震动参数下各类建筑物的易损性结果,比较城市各类建筑物的抗震性能。本文研究可望在城市建筑物震害评估中有好的应用前景。 相似文献
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Humans are exposed to ionizing radiation all the time, and it is known that it can induce a variety of harmful biological
effects. Consequently, it is necessary to quantitatively assess the level of exposure to this radiation as the basis for estimating
risks due to ionization radiation. During the Work Package 2400 of the COST-724/WG-2 action, a number of spacecraft and aircraft
experiments have been performed with both active and passive detectors. A large data base has been created.
In this contribution we would like to stress the results obtained and their importance in three particular directions: (i)
Simultaneous investigation of galactic cosmic rays on aircraft and on the International Space Station (ISS); (ii) Onboard
spacecraft neutron contribution as estimated on the basis of the comparison of results measured with MDU/Liulin equipment
onboard ISS, foton capsule and a commercial aircraft flying at subsonic altitudes; (iii) Complex analysis of the results of
long term measurements onboard a Czech Airlines aircraft. The results obtained are presented, analyzed, and discussed, and
their complementary nature is underlined. The contribution represents a version of the Final Report of the Work Package 2400
of the COST-724/WG-2: Radiation Environment of the Earth. 相似文献
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断层错动对隧道的影响分析 总被引:1,自引:0,他引:1
隧道通过潜在地震地区时.存在活动断层的错动形成的重大工程地质问题的威胁.基于断裂儿何学和震源的运动学特征,以广州地区活动断裂为研究背景,通过在断层左右盘施加一定的速度荷载,模拟了断层错动达到0.28 m时对隧道的影响.得出隧道结构在断层错动影响下的位移和应力的变化规律.分别建立隧道结构距离断层50 m、100 m、150 m三个模型,比较了三种情况下的位移和应力状况.归纳出隧道与断层之间的安全距离. 相似文献
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The goal of cathodic protection is to prevent corrosion by maintaining buried pipelines at a constant potential with respect to the surrounding soil. In practice, however, the implementation is very complicated since many factors can contribute to the current flowing off the pipe. Design requires characterization of the parameters impacting the corrosion process, such as soil resistivity, size of the pipe and quality of the coating.In the present paper, we have studied the effect of geomagnetic fields on the pipe-induced currents considering it as an additional cause of corrosion. A theoretical method implemented to model the induced currents was tested in a previous work and the effect during disturbed days was quantified. This theoretical model indicated that the intensity of the current induced in a pipeline by the varying geomagnetic field depends on the intensity and rate of change of the field and the electrical resistivity of the soil. This induced current is in equilibrium with the host current and there is no current drainage between the pipeline and the host until, along the length of the pipeline, the host resistivity becomes different. At that point, current must flow between the pipe and host in order to establish a new equilibrium. It is this drainage current, flowing between the pipeline and the host, which causes corrosion problems.Following these results, experimental tests were performed in Tierra del Fuego. In this zone, a geophysical study was made to determine the discontinuities in soil resistivities and simultaneous measurements of the geomagnetic field and the drainage of current were recorded at different sites. The results obtained from the correlation of the data are consistent with the theoretical predictions. 相似文献