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A platform for research: civil engineering, architecture and urbanism
Elastoplastic Deformation Characteristics of Gravelly Soils
This study explores the elastoplastic deformational behavior of gravelly soils. A series of drained triaxial tests with controlled stress paths [conventional triaxial compression (CTC) and conventional triaxial extension (CTE)] were conducted using large specimens composed of gravelly soils. Experimental results reveal that the elastic and plastic deformation of gravelly soils exhibits the following characteristics: (1) the elastic shear modulus stiffens under increase of hydrostatic loading; (2) during the CTC tests, plastic deformation occurs before the failure state, and the influence of confining pressure on the plastic strain is insignificant; (3) through the CTE path, the shear strain dominates the plastic deformation; (4) based on the distribution of plastic flows, the gravelly soils follow the nonassociated flow rule; and (5) this study proposes a possible geometry of plastic potential surface for gravelly soil, which includes two parts: an approximately horizontal line and an elliptic surface in the plane.
Elastoplastic Deformation Characteristics of Gravelly Soils
This study explores the elastoplastic deformational behavior of gravelly soils. A series of drained triaxial tests with controlled stress paths [conventional triaxial compression (CTC) and conventional triaxial extension (CTE)] were conducted using large specimens composed of gravelly soils. Experimental results reveal that the elastic and plastic deformation of gravelly soils exhibits the following characteristics: (1) the elastic shear modulus stiffens under increase of hydrostatic loading; (2) during the CTC tests, plastic deformation occurs before the failure state, and the influence of confining pressure on the plastic strain is insignificant; (3) through the CTE path, the shear strain dominates the plastic deformation; (4) based on the distribution of plastic flows, the gravelly soils follow the nonassociated flow rule; and (5) this study proposes a possible geometry of plastic potential surface for gravelly soil, which includes two parts: an approximately horizontal line and an elliptic surface in the plane.
Elastoplastic Deformation Characteristics of Gravelly Soils
Weng, Meng-Chia (author) / Chu, Bin-Lin (author) / Ho, Yu-Ling (author)
Journal of Geotechnical and Geoenvironmental Engineering ; 139 ; 947-955
2012-09-04
92013-01-01 pages
Article (Journal)
Electronic Resource
English
Elastoplastic Deformation Characteristics of Gravelly Soils
| British Library Online Contents | 2013
Elastoplastic Deformation Characteristics of Gravelly Soils
| Online Contents | 2013