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Analysis of Shear Banding in True Triaxial Tests on Sand
Lade, Poul V ; Wang, Qiong
Journal of engineering mechanics, 2001-08, Vol.127 (8), p.762-768
[Periódico revisado por pares]
Reston, VA: American Society of Civil Engineers
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Título:
Analysis of Shear Banding in True Triaxial Tests on Sand
Autor:
Lade, Poul V
;
Wang, Qiong
Assuntos:
Applied sciences
;
Buildings. Public works
;
Exact sciences and technology
;
Geotechnics
;
Soil mechanics. Rocks mechanics
;
TECHNICAL PAPERS
É parte de:
Journal of engineering mechanics, 2001-08, Vol.127 (8), p.762-768
Notas:
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
Descrição:
A series of true triaxial tests have been performed on rectangular prismatic specimens of Santa Monica Beach sand at three different relative densities to study the occurrence of failure, mechanisms that create failure, and soil behavior in the vicinity of failure. One mechanism is smooth peak failure, in which the soil continues to behave as a continuum with uniform strains, and smooth peak failure is followed by strain softening. Another mechanism is shear banding, whose occurrence in the plastic hardening regime limits the strength of the soil. Presented here are analyses based on theoretical conditions for localization and subsequent shear banding and on the results of the true triaxial tests. Thus, the strength increases as b [=( 2 − 3)/( 1 − 3)] increases from 0 to about 0.18, remains almost constant until b reaches 0.85, and then decreases slightly at b = 1.0. Shear banding initiates in the hardening regime for b-values of 0.18-0.85. Thus, peak failure is caused by shear banding in this middle range of b-values, and a smooth, continuous 3D failure surface is therefore not generally obtained for soils. The experimental results agree with the theoretical conditions for the occurrence of shear banding and its consequent effect on the 3D failure stress states for soil.
Editor:
Reston, VA: American Society of Civil Engineers
Idioma:
Inglês
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