Experimental Study of the Process Zone, Nucleation Zone and Plastic Area of Earthquakes by the Shadow Optical Method of Caustics

Z. Xu; R. Yang; J. Zhao; B. Wang; Y. Wang; B. Xiong; Z. Wang; X. Lu; S. Mei

首页> 外文期刊>Pure and Applied Geophysics >Experimental Study of the Process Zone, Nucleation Zone and Plastic Area of Earthquakes by the Shadow Optical Method of Caustics

【24h】

Experimental Study of the Process Zone, Nucleation Zone and Plastic Area of Earthquakes by the Shadow Optical Method of Caustics

机译：焦散的阴影光学方法对地震过程区，成核区和塑性区的实验研究

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

— On a plexiglass sample, a penetrating crack was prefabricated by laser. The crack is inclined towards the major principal stress σ1(σ y ) at an angle of about 30°. Using this sample and by means of shadow optical method of caustics and microcrack location, the process zone, nucleation zone and plastic area of earthquakes were studied experimentally, and the strain variation in the shadow area was monitored. From the result, we comprehend the following. When the stress σ y was increased to a certain value, shadow areas were formed around the prefabricated crack and at its tips, with that at the tips being larger. These shadow areas become larger with the increase of load and smaller with unloading. In the shadow area the strain was inhomogeneous: it was very large in some places but very small in others. When the shadow area reached a critical state, microcracks appeared at the tips of the prefabricated crack. Microcracks appeared on one side of the prefabricated crack where the strain and the shadow were both smaller. The zone with concentrated microcracks, or the process zone, was always located at the crack tip; this zone together with a half length of the original crack formed the nucleation zone which fell into the shadow area but was smaller than it. The shadow optical area of caustics bears a certain quantitative relation with the plastic area. Therefore, if an appropriate method is available to obtain the shadow optical area of caustics, it would be possible to detect the area with strong differential deformation change, and hence to determine the zone where strong fracture (an earthquake) would take place.

机译：—在有机玻璃样品上，通过激光预制了穿透裂纹。裂纹以大约30°的角度朝向主要主应力σ1（σy ）倾斜。使用该样品，并通过焦散和微裂纹定位的阴影光学方法，对地震的过程区，成核区和塑性区进行了实验研究，并监测了阴影区的应变变化。从结果，我们理解以下内容。当应力σy 增加到一定值时，在预制裂纹周围和尖端处形成阴影区域，尖端处较大。这些阴影区域随着负载的增加而变大，而随着卸载的增加而变小。在阴影区域，应变不均匀：某些地方很大，而其他地方很小。当阴影区域达到临界状态时，微裂纹出现在预制裂纹的尖端。微裂纹出现在预制裂纹的一侧，应变和阴影都较小。集中微裂纹的区域或加工区域始终位于裂纹尖端。该区域与原始裂纹的一半长度一起形成了形核区，该形核区落入了阴影区域，但小于阴影区域。焦散的阴影光学区域与塑性区域具有一定的定量关系。因此，如果可以使用适当的方法来获得苛性碱的阴影光学区域，则可以检测出具有强烈的微分形变变化的区域，从而确定发生强烈断裂（地震）的区域。

著录项

来源
《Pure and Applied Geophysics》 |2002年第9期|1951-1966|共16页
作者
Z. Xu; R. Yang; J. Zhao; B. Wang; Y. Wang; B. Xiong; Z. Wang; X. Lu; S. Mei;
展开▼
作者单位

Seismological Bureau of Yunnan Province Kunming China 650041. E-mails: xuzhaoyong@netease.com;

runhaiyang@163.com;

zhaojinming@ynmail.com;

Seismological Bureau of Yunnan Province Kunming China 650041. E-mails: xuzhaoyong@netease.com;

runhaiyang@163.com;

zhaojinming@ynmail.com;

Seismological Bureau of Yunnan Province Kunming China 650041. E-mails: xuzhaoyong@netease.com;

runhaiyang@163.com;

zhaojinming@ynmail.com;

Seismological Bureau of Yunnan Province Kunming China 650041. E-mails: xuzhaoyong@netease.com;

runhaiyang@163.com;

zhaojinming@ynmail.com;

Seismological Bureau of Yunnan Province Kunming China 650041. E-mails: xuzhaoyong@netease.com;

runhaiyang@163.com;

zhaojinming@ynmail.com;

Laser Institute Kunming Technology University Kunming China 650051. E-mail: bhxiong@public.km.yn.com;

Laser Institute Kunming Technology University Kunming China 650051. E-mail: bhxiong@public.km.yn.com;

Laser Institute Kunming Technology University Kunming China 650051. E-mail: bhxiong@public.km.yn.com;

Center for Analysis and Prediction China Seismological Bureau Beijing China 100036.;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Key words: Shadow optical method of caustics; microcrack location; process zone; nucleation zone; plastic area; differential change.;

机译：关键字：阴影的焦散光学法;微裂纹位置;加工区成核区;塑料区差异变化。;

相似文献

外文文献
中文文献
专利

1. Experimental Study of the Process Zone, Nucleation Zone and Plastic Area of Earthquakes by the Shadow Optical Method of Caustics [J] . Zhaoyong Xu, Runhai Yang, Jinming Zhao, Pure and Applied Geophysics . 2002,第9期

机译：焦散的阴影光学方法对地震过程区，成核区和塑性区的实验研究
2. EXPERIMENTAL AND MODELLING STUDIES OF THE SHADOW OPTICAL METHOD OF CAUSTICS [J] . Dear JP., Hassan S. Polymer Testing . 1997,第2期

机译：阴影光学法的实验与建模研究
3. An experimental study on fracture process zone In HSC three point bend beam specimen using acoustic emission method [J] . R. Vidya Sagar, B. K. Raghu Prasad Journal of Structural Engineering . 2009,第1期

机译：声发射法在HSC三点弯曲梁试件断裂过程带的试验研究
4. NUMERICAL AND EXPERIMENTAL STUDY OF THE PLASTIC ZONE IN THE VICINITY OF THE CRACK TIP BY THE OPTICAL CAUSTICS METHOD [C] . Octavian Pop, Valery Valle, Mario Cottron International Congress of Theoretical and Applied Mechanics . 2004

机译：光学焦化法附近塑料区的数值和实验研究
5. An experimental investigation of frictional and hydraulic properties of shear zones, with application to earthquake faults and glacial till. [D] . Rathbun, Andrew Paul. 2010

机译：剪切带摩擦和水力特性的实验研究，并应用于地震断层和冰川耕作。
6. Simulation of slip transients and earthquakes in finite thickness shear zones with a plastic formulation [O] . Xinyue Tong, Luc L. Lavier -1

机译：用塑料公式模拟有限厚度剪切区的滑动瞬变和地震
7. Experimental Faulting of Serpentinite During Dehydration: Implications for Earthquakes, Seismic Low-Velocity Zones, and Anomalous Hypocenter Distributions in Subduction Zones [O] . Haemyeong Jung, Harry, W. Green 2012

机译：脱水过程中蛇纹岩的实验断裂：对俯冲带中的地震，地震低速带和异常的下中心分布的影响

Experimental Study of the Process Zone, Nucleation Zone and Plastic Area of Earthquakes by the Shadow Optical Method of Caustics

摘要

著录项

相似文献

相关主题

期刊订阅