1![The role of thermal pressurization and dilatancy in controlling the rate of fault slip Paul Segall Geophysics Department Stanford University Stanford, CA, 94305 The role of thermal pressurization and dilatancy in controlling the rate of fault slip Paul Segall Geophysics Department Stanford University Stanford, CA, 94305](https://www.pdfsearch.io/img/e61ffb9d5795650897d36cb98b062c46.jpg) | Add to Reading ListSource URL: earthsci.stanford.edu- Date: 2015-10-13 18:31:31
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2![Acta Geotechnica:525–535 DOIs11440x RESEARCH PAPER Criterion for flow liquefaction instability Acta Geotechnica:525–535 DOIs11440x RESEARCH PAPER Criterion for flow liquefaction instability](https://www.pdfsearch.io/img/b541d9f121f72cbef889658bb6112ae2.jpg) | Add to Reading ListSource URL: www.geomechanics.caltech.eduLanguage: English - Date: 2015-08-03 17:59:11
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3![Acta Geotechnica DOIs11440RESEARCH PAPER Mechanics of origin of flow liquefaction instability Acta Geotechnica DOIs11440RESEARCH PAPER Mechanics of origin of flow liquefaction instability](https://www.pdfsearch.io/img/7d33791a5d26cfe25aafb7a6e1eb5f1c.jpg) | Add to Reading ListSource URL: www.geomechanics.caltech.eduLanguage: English - Date: 2016-06-08 17:41:42
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4![TECHNICAL POSITION PAPER ISSUES RELATED TO CONTROL OF COARSE COAL REFUSE COMPACTION DURING CONSTRUCTION OF FINE COAL REFUSE SLURRY IMPOUNDMENT EMBANKMENTS AND BARRIERS Michael Richmond, Chief, TECHNICAL POSITION PAPER ISSUES RELATED TO CONTROL OF COARSE COAL REFUSE COMPACTION DURING CONSTRUCTION OF FINE COAL REFUSE SLURRY IMPOUNDMENT EMBANKMENTS AND BARRIERS Michael Richmond, Chief,](https://www.pdfsearch.io/img/5354a9514ca7872b751cb4018818e17a.jpg) | Add to Reading ListSource URL: www.arcc.osmre.govLanguage: English - Date: 2015-01-30 13:10:04
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5![Downloaded from rspa.royalsocietypublishing.org on August 4, 2014 A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests David L. George and Downloaded from rspa.royalsocietypublishing.org on August 4, 2014 A depth-averaged debris-flow model that includes the effects of evolving dilatancy. II. Numerical predictions and experimental tests David L. George and](https://www.pdfsearch.io/img/5403fcddfa0b406fbbb232a87c2c61e3.jpg) | Add to Reading ListSource URL: profile.usgs.govLanguage: English |
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6![Revisiting lab observations of the deep stable-unstable faulting transition, dilatancy, and the poromechanics of fault zones - Earthscope Mtg Portland[removed]Nick Beeler, David Lockner, US Geological Survey Noel Bartl Revisiting lab observations of the deep stable-unstable faulting transition, dilatancy, and the poromechanics of fault zones - Earthscope Mtg Portland[removed]Nick Beeler, David Lockner, US Geological Survey Noel Bartl](https://www.pdfsearch.io/img/dc067e1619d0fd67a241d36f8efcd838.jpg) | Add to Reading ListSource URL: www.earthscope.orgLanguage: English - Date: 2014-04-09 14:59:10
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7![Numerical
Simulations
of
Crater
Formation
with
Dilatancy
for
Analysis
of
GRAIL
data
Dr.
Gareth
Collins
and
Dr.
Mark
Wieczorek
B Numerical
Simulations
of
Crater
Formation
with
Dilatancy
for
Analysis
of
GRAIL
data
Dr.
Gareth
Collins
and
Dr.
Mark
Wieczorek
B](https://www.pdfsearch.io/img/70118b51b5e48ef8bcac5363b3dde185.jpg) | Add to Reading ListSource URL: workspace.imperial.ac.ukLanguage: English - Date: 2013-10-07 03:40:19
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