Displacement Field of Dislocation in a Twophase Saturated Medium in Semi-Infinite Space

The elastic dislocation theory is an important tool to study sources of earthquakes. Using the dislocation theory of the single‐phase medium, the obtained ground deformation field is stable and constant. However, the observed ground deformation field after earthquakes is varied which may be associat...

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Veröffentlicht in:	Chinese journal of geophysics 2003-05, Vol.46 (3), p.582-593
Hauptverfasser:	DING, Boyang, FAN, Liangben, MENG, Fanli, DING, Cuihong, CAO, Yunzhong
Format:	Artikel
Sprache:	eng
Schlagworte:	Displacement field of dislocation Semi-infinite space Two-phase saturated medium
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container_title	Chinese journal of geophysics
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creator	DING, Boyang FAN, Liangben MENG, Fanli DING, Cuihong CAO, Yunzhong
description	The elastic dislocation theory is an important tool to study sources of earthquakes. Using the dislocation theory of the single‐phase medium, the obtained ground deformation field is stable and constant. However, the observed ground deformation field after earthquakes is varied which may be associated with fluids in rocks. The purpose of this study is to acquire the displacement field in a two‐phase saturated medium in semi‐infinite space. Our method is utilizing the cylinder function expression of the Green function for a two‐phase saturated medium in semi‐infinite space under a concentrated force, via vector transformation of the Helmholtz equation, and then superimposing the effect field of a free surface. Combining the DD model of Nur and assumption on water in and water out, our result can explain the variations of the ground deformation field before and after earthquakes.
doi_str_mv	10.1002/cjg2.3376
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Using the dislocation theory of the single‐phase medium, the obtained ground deformation field is stable and constant. However, the observed ground deformation field after earthquakes is varied which may be associated with fluids in rocks. The purpose of this study is to acquire the displacement field in a two‐phase saturated medium in semi‐infinite space. Our method is utilizing the cylinder function expression of the Green function for a two‐phase saturated medium in semi‐infinite space under a concentrated force, via vector transformation of the Helmholtz equation, and then superimposing the effect field of a free surface. 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Geophys</addtitle><description>The elastic dislocation theory is an important tool to study sources of earthquakes. Using the dislocation theory of the single‐phase medium, the obtained ground deformation field is stable and constant. However, the observed ground deformation field after earthquakes is varied which may be associated with fluids in rocks. The purpose of this study is to acquire the displacement field in a two‐phase saturated medium in semi‐infinite space. Our method is utilizing the cylinder function expression of the Green function for a two‐phase saturated medium in semi‐infinite space under a concentrated force, via vector transformation of the Helmholtz equation, and then superimposing the effect field of a free surface. 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Geophys</addtitle><date>2003-05</date><risdate>2003</risdate><volume>46</volume><issue>3</issue><spage>582</spage><epage>593</epage><pages>582-593</pages><issn>0898-9591</issn><eissn>2326-0440</eissn><abstract>The elastic dislocation theory is an important tool to study sources of earthquakes. Using the dislocation theory of the single‐phase medium, the obtained ground deformation field is stable and constant. However, the observed ground deformation field after earthquakes is varied which may be associated with fluids in rocks. The purpose of this study is to acquire the displacement field in a two‐phase saturated medium in semi‐infinite space. Our method is utilizing the cylinder function expression of the Green function for a two‐phase saturated medium in semi‐infinite space under a concentrated force, via vector transformation of the Helmholtz equation, and then superimposing the effect field of a free surface. Combining the DD model of Nur and assumption on water in and water out, our result can explain the variations of the ground deformation field before and after earthquakes.</abstract><pub>Blackwell Publishing Ltd</pub><doi>10.1002/cjg2.3376</doi><tpages>12</tpages></addata></record>
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subjects	Displacement field of dislocation Semi-infinite space Two-phase saturated medium
title	Displacement Field of Dislocation in a Twophase Saturated Medium in Semi-Infinite Space
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