Focal Mechanism Solution of the February 23,2014,M_L3.8 Rongchang Earthquake with the CAP(Cut and Paste)Method

A M_L3.8 earthquake occurred on February 23,2014 in Rongchang County,which is located at the southern edge of the Sichuan Basin in the border area between Sichuan and Chongqing. This paper presents results of focal mechanism solution of this earthquake using the CAP( cut and paste) method based on broadband seismograms recorded by regional seismic stations. Our results show that the moment magnitude is M_W3. 09 and focal depth is 3km. The hypocenter of this earthquake is located close to a buried fault in the Luoguangshan anticline. Oil prospecting and deep drilling data indicate that this buried fault is a thrust fault,striking SW230°,dipping NW45°,and 1. 7km deep. There are some injection wells within the anticline,and significant injection-induced earthquakes were observed during the periods of injection of waste water into the deep formations through those wells. The best double couple solution of the M_L3.8 earthquake is 247°,48°and 104° for strike,dip and rate,respectively,for one nodal plane( and 46°,44° and 74°for another nodal plane),which is in agreement with the geometry of the buried fault.Therefore,we conclude that the M_L3.8 Rongchang earthquake is possibly the result of faulting along the buried reverse fault induced by water injection under the compressive stress regime in the area.

基于CAP方法的2013湖北巴东5.1级地震震源机制与发震构造研究

利用湖北与重庆区域台网共9个台的宽频带数字地震记录,采用CAP法(Cut and Paste Method)反演了湖北巴东2013年12月16日MS5.1地震震源机制解,其最佳双力偶解为节面I:走向166°,倾角82°,滑动角41°;节面Ⅱ:走向69°,倾角49°,滑动角169°;最佳震源深度主要集中分布在5.5km附近。分析认为此次地震的发震断层为带有逆冲成分的走滑性质断层,主压应力P轴近EW向,主张应力轴近NS向。余震序列主要呈EW分布,少部分呈NS方向分布,较大余震的发震破裂滑动类型以正走滑型的居多,其次为逆倾滑型及逆走滑型。结合7次较大余震的机制解判断,近EW向节面为发震断层。

用CAP方法研究安庆4.8级地震震源机制

利用CAP方法反演了2011年1月19日安庆MS 4.8地震震源机制解。反演得到震级MW=4.1,节面I走向角16°、倾角74°、滑移角120°;节面II走向131°,倾角33°,滑移角30°;震源深度为3km。两个节面的走向与震中附近的宿松-枞阳断裂的走向相差较大,加之前人的地质考察结果显示,该断裂晚第四纪以来地震活动性较弱,故认为宿松-枞阳断裂是安庆MS 4.8地震发震构造的可能性较小,本次地震很可能是北北东向的隐伏断层活动的结果。

用CAP方法反演2010年6月5日山西阳曲M_S4.6地震震源机制解

利用CAP方法反演了2010年6月5日阳曲MS4.6地震震源机制解,得到震级MW为4.5,节面I走向213°、倾角47°、滑动角-161°,节面II走向109°,倾角76°,滑动角-44°,属于倾滑型;精确定位显示震中处于石岭关隆起区,CAP反演和精定位结果推断本次地震的震源深度为17～20km。震源机制解节面参数与震中附近的山根底断裂和系舟山西麓断裂产状存在差异,这两条断裂不是阳曲地震的发震断裂,由于现场野外地质考察未发现地表断裂,不排除本次地震为隐伏断层活动的结果。

CAP方法反演乳山震群3.0级以上地震震源机制解

利用CAP方法（Cutand Paste Method），反演了2013年10月1日以来发生在山东乳山的地震序列中M≥3．0的9次地震震源机制解。结果显示，这9次地震的震源机制解基本一致，在震源深度分布和震中空间分布上略有差异；拟合的最佳震源深度在3．8～8．6km的范围内，主要分布在近地表的上地壳；乳山震群的断层走向是NW向分布、倾角是NE向分布。因距已知主要断层有一定距离，故可以推断乳山地震序列区域有一条或者多条隐伏断裂。

基于cut-off方法刚性承台下群桩基础优化分析

针对刚性筏板下群桩基础优化设计问题进行分析,通过改变桩长分布来调整各桩的荷载分担,群桩分析采用基于弹性理论的积分方程方法,并通过cut-off方法来反映桩的弹塑性特性,实现群桩基础的弹塑性优化分析,改进了常规弹性分析方法的缺陷。算例分析表明,随着外荷载的不断增加,角桩首先达到极限荷载,对角桩超出极限荷载的部分进行重新分布,继而使得边桩逐渐达到极限承载状态,继续加载直至内桩也达到极限承载状态,从而引起桩筏基础的整体破坏。采用cut-off方法可以改进基础变刚度优化设计,使之与实际情况更为吻合。

基于CAP方法的2019年湖北应城M_(S)4.9地震震源机制与发震构造研究

利用湖北区域台网8个台站的宽频带数字地震记录,采用CAP法反演了湖北应城2019年12月26日M_(S)4.9(M_(L)5.3)地震震源机制解。其最佳双力偶解:节面I走向49°,倾角78°,滑动角162°;节面Ⅱ走向143°,倾角72°,滑动角13°;主压应力P轴近EW向;主张应力轴近NS向;最佳震源深度约8.0km。其最大余震为2020年1月8日M_(S)2.6(M_(L)3.3)地震,余震序列呈NW分布。分析结果认为:此次地震由带有逆冲成分的走滑型断层错动造成,节面Ⅱ为发震断层且与皂市断裂有关。

传统与现代的交融:库淑兰彩贴剪纸色彩艺术在小学美术装饰色彩教学中的应用研究

本论文旨在探讨库淑兰彩贴剪纸色彩艺术在小学美术装饰色彩教学中的应用,分析如何将传统艺术与现代教学相结合,以提升学生的审美能力和创造力。通过对库淑兰彩贴剪纸色彩艺术的特点和小学美术装饰色彩教学的现状分析,提出具体的教学方法和策略。将库淑兰彩贴剪纸色彩艺术融入小学美术装饰色彩教学,能够有效提高学生的色彩感知和运用能力,同时培养学生的传统文化意识和创新能力。

旬邑彩贴剪纸中的色彩艺术在平面设计中的应用研究

旬邑彩贴剪纸历史久远,所蕴含的文化内涵丰富多样,彩贴剪纸的色彩元素能够生动形象地传递出作品本身所独有的美感,进而能更有力地推广旬邑传统文化。深入研究旬邑彩贴剪纸的色彩元素,可以使平面设计展现出中华传统文化的独特魅力。基于此,文章以关中旬邑剪纸的发展脉络为起点,通过对其别具一格的表现形式、深厚的文化内涵以及独特的审美特征加以分析,总结了色彩在旬邑彩贴剪纸艺术中所具有的情感价值,并提出了几点旬邑彩贴剪纸中的色彩艺术在平面设计中的应用策略。

利用CAP方法反演乌兰5.1级地震震源机制

本文采用了Crust2.0速度结构模型对青海地震台网记录到的2014年10月2日乌兰5.1级地震进行分析反演得到震源机制解及最佳震源深度。反演结果显示此次地震为逆冲型地震,其震源机制解：节面Ⅰ：走向293°,倾角44°,滑动角88°;节面Ⅱ：走向116°,倾角46°,滑动角92°。最佳矩形深度为15.7km,通过与中国地震局地球物理研究所及哈佛所得结果对比分析基本一致,表明其反演结果可靠合理。

基于CAP方法的震源机制研究

利用来源于湖北区域台网共6个台的宽频带数字地震记录,采用CAP法(Cut and Paste Method)反演了2008年11月22日湖北-秭归Ms4.1级地震和09月27日Ms3.2中小震的震源机制解。结果显示,2次地震的震源机制解有一些差别,但是均为逆冲兼走滑分量性质断层,主压应力P轴主要集中在NE向,与区域主压应力方向有一定一致性。分析认为秭归地震可能是仙女山断裂受库水渗透和载荷变化影响引发的水库构造地震。通过与P波初动地震震源机制结果对比发现,该地震的震源机制的反演结果有较好的一致性,结果较可信。

A multiphysics-viscoplastic cap model for simulating blast response of cemented tailings backfill

Although a large number of previous researches have significantly contributed to the understanding of the quasi-static mechanical behavior of cemented tailings backfill,an evolutive porous medium used in underground mine cavities,very few efforts have been made to improve the knowledge on its response under sudden dynamic loading during the curing process.In fact,there is a great need for such information given that cemented backfill structures are often subjected to blast loadings due to mine exploitations.In this study,a coupled thermo-hydro-mechanical-chemical(THMC)-viscoplastic cap model is developed to describe the behavior of cementing mine backfill material under blast loading.A THMC model for cemented backfill is adopted to evaluate its behavior and evolution of its properties in curing processes with coupled thermal,hydraulic,mechanical and chemical factors.Then,the model is coupled to a Perzyna type of viscoplastic model with a modified smooth surface cap envelope and a variable bulk modulus,in order to reasonably capture the nonlinear and rate-dependent behaviors of the cemented tailings backfill under blast loading.All of the parameters required for the variable-modulus viscoplastic cap model were obtained by applying the THMC model to reproducing evolution of cemented paste backfill(CPB)properties in the curing process.Thus,the behavior of hydrating cemented backfill under high-rate impacts can be evaluated under any curing time of concern.The validation results of the proposed model indicate a good agreement between the experimental and the simulated results.The authors believe that the proposed model will contribute to a better understanding of the performance of hydrating cemented backfill under blasting,and also to practical risk management of backfill structures associated with such a dynamic condition.

用CAP方法研究重庆荣昌2014年2月23日M_L3.8地震震源机制

利用CAP(cut-and-paste)法反演2014年2月23日重庆荣昌ML3.8地震震源机制,得到MW震级为3.04,节面Ⅰ走向46°、倾角44°、滑动角74°,节面Ⅱ走向247°、倾角48°、滑动角104°,P轴方位147.25°、仰角-2.09°,T轴方位46°、仰角-78.76°,表明该地震是带走滑分量的逆冲型地震。CAP测定的这次ML3.8地震的震源深度为3km,在油气的储层内,震源机制解中节面Ⅱ走向、倾角与震中附近的一条深度为1700m以下走向为SW230°倾向NW,倾角约45°的"腹底"逆断层基本一致。震中位于荣昌天然气田,附近有几口废水回注深井,曾发生大量的注水诱发地震。本次地震亦有可能是在区域主应力场的作用下,注水后岩石的孔隙压发生变化触发了盆地盖层内"腹底"断层活动的结果。

Focal Mechanism Solution of the 2011 M_S4.8 Anqing Earthquake Determined from the CAP Method

In this article, we have inverted local broadband waveform data to determine the focal mechanism of the 2011 Ms4.8 Anqing earthquake. Our results show that the best double couple solution of the Ms4.8 event is 16°, 74° and 120° for strike, dip and rake angles of one nodal plane respectively, and 131 °, 33°, 30° for the other nodal plane. The estimated focal depth is about 3kin. Both strikes of the two nodal planes differ significantly to the strike of Susong-Zongyang fault, along which seismic activity has been at a low level since the Late Quaternary. This implies that this earthquake may not have occurred on the Susong-Zongyang fault, and we infer that a buried fault with strike of NNE may be the seismogenic structure of this event.

Study on the Critical Production Calculation Method of the Water-Flooding Reservoir with Gas Cap

The aim of this paper is to solve the problems that the existing method of critical production of gas cap reservoir is only suitable for single-phase flow, and the method of critical production of gas cap reservoir under water-flooding is still blank. In this paper, the relationships between dynamic and static equilibrium, plane radial flow theory, oil-water infiltration method and three-dimensional seepage field decomposition theory, were applied to study a calculation method for critical production of directional wells and horizontal wells. Furthermore, the effects of different factors on critical output were studied, such as horizontal permeability, ratio of horizontal permeability to vertical permeability, length of horizontal section, effective thickness, viscosity of crude oil and water content etc. Results show that the critical production increases with the increment of the horizontal permeability, the ratio of the vertical permeability to the horizontal permeability, the reservoir thickness and the horizontal well length;when the viscosity of crude oil is small, the critical production decreases first and then increases with the increase of water content;when the viscosity of crude oil is high, the critical production increases continuously with the increase of water content. This study could provide theoretical and technical guidance for changing of the working system of oil wells. It can avoid gas channeling and improve the development effect.

云南地区中小地震震源机制解及分区特征分析

利用云南地区2008年至2022年4月M_(W)≥3.0共1096个地震震源机制解,进行统计和区域构造应力场特征分析.结果表明:①云南地区震源机制解以走滑断层型为主,走滑断层型地震为702个,占比为64%;其次是正断层型地震为125个,占比为11.4%,说明云南地区断裂以走滑断层型和正断层型为主;②云南地区以走滑断层型地震占比最多,滇西北地区的正断层型地震占比显著高于其他区域,小滇西地区几乎没有逆冲型大断层;③云南地区断层受到的应力以水平向剪切应力为主,主压应力轴P轴的方位角的优势分布方向以NNE和SSW向为主,断层面多为高倾角,滇西北地区正断层型地震显著多于其他地区,说明滇西北地区是云南地区应力转换带.

“Cut-and-paste” method for the rapid prototyping of soft electronics

Unlike wafer-based rigid electronics, soft electronics have many unique advantages including thinness, flexibility, stretchability,conformability, lightweight, large area, as well as low cost. As a result, they have demonstrated many emerging capabilities in healthcare devices, soft robotics, and human-machine interface. Instead of conventional microfabrication, there is an evergrowing interest in the freeform or digital manufacture of soft electronics. This review provides a survey for a cost-and timeeffective subtractive manufacturing process called the "cut-and-paste" method. It employs a mechanical cutter plotter to form patterns on various electronically functional membranes such as sheets of metals, functional polymers, and even two-dimensional(2D) materials, supported by a temporary tape. The patterned membranes can then be pasted on soft substrates such as medical tapes or even human skin. This process is completely dry and desktop. It does not involve any rigid wafers and is hence capable of making large-area electronics. The process can be repeated to integrate multiple materials on a single substrate.Integrated circuits(ICs) and rigid components can be added through a "cut-solder-paste" process. Multilayer devices can also be fabricated through lamination. We therefore advocate that the "cut-and-paste" method is a very versatile approach for the rapid prototyping of soft electronics for various applications.

库淑兰彩贴剪纸纹样与服饰设计创新融合研究

剪纸是国家级非物质文化遗产,其中蕴含着独特的艺术魅力。陕西库淑兰彩贴剪纸是剪纸中独具特色的一派,有一定的艺术价值。近年来,随着人们对民俗、非遗等关注度的提高,非遗与服饰的融合获得了更多人的青睐。文章以库淑兰彩贴剪纸为研究对象,从创新融合的角度出发,将民俗类非物质文化遗产与服饰设计相结合,既丰富了服饰设计内容,又助力了民俗类非遗的传承传播。

2013年洱源M_S5.5地震序列M_L≥3.4地震的震源机制解研究

利用云南省地震台网的宽频带数据,采用CAP方法计算了2013年3月3日洱源MS5.5地震前后共10次ML≥3.4地震的震源机制解,分析了洱源MS5.5地震前后震源机制解的一致性变化特征,结合精定位结果、震后现场灾害评估报告及震区地质构造情况,判定维西—巍山断裂以西的苍山西麓炼铁盆地东缘主边界断裂带为洱源MS5.5地震的发震构造,震源机制解节面Ⅱ(走向160°、倾角48°、滑动解-99°)为其发震断层面。

大凉山次级块体及邻区震源机制解与区域应力场特征分析

基于Cut-And-Paste(CAP)全波形拟合反演震源机制解方法和阻尼线性逆推法(DRSSI),采用分区域选取地壳速度模型的形式,计算得到大凉山次级块体及邻区(101.5°~104.5°E,26.5°~30.5°N)震源机制解和区域应力场。结合构造地质、GPS观测数据等已有研究资料综合分析认为,大凉山次级块体及邻区震源机制解主要以走滑和逆冲机制为主,其空间分布特征与地质构造活动性质较吻合;区域应力场方向与GPS速度场运动方向基本一致,优势方向为NW-SE和NWW-SEE向,整个区域主要以走滑和逆冲性质为应力特征。震源机制解和区域应力空间分布特征表明大凉山次级块体在川滇块体、巴颜喀拉块体和华南块体三者联合作用的影响下形成了现今的应力格局,川滇块体相对向SE滑移以及青藏高原物质的E、SE向逃逸为大凉山次级块体及其周围地区强烈变形及大尺度位移的主要动力来源。