论文信息 - Strain Localization in Extension Tests on Granular Materials

Strain Localization in Extension Tests on Granular Materials

An experimental study on granular materials in triaxial extension at confining pressures from 0.25 to 68 MPa is presented. Drained and undrained tests were performed utilizing cylindrical specimens. Strain localization was repeatedly encountered in the form of specimen necking. The strain localization was determined to initiate very early in the test. The cause of the strain localization was determined to initiate very early in the test. The cause of the strain localization was determined to be the inherent instability in the axisymmetric extension test, which allows stresses, and therefore deformations, to concentrate at the weakest part of the specimen. The instability is a result of the inward radial strains experienced during the extension test. The effect is to lower the measured failure stresses and strains resulting in the conclusion that the conventional extension test is unreliable for determining soil strength in extension. A method was developed to enforce uniform strains in triaxial extension tests on cylindrical specimens by the use of small metal plates separated by lubricated latex membranes. Using this method a series of uniform-strain tests were performed. Detailed comparisons between strain-localized and uniform-strain tests are presented.

Jerry A. Yamamuro | Poul V. Lade | P. Lade | J. Yamamuro

[1] F. Molenkamp. COMPARISON OF FRICTIONAL MATERIAL MODELS WITH RESPECT TO SHEAR BAND INITIATION , 1985 .

[2] D. W. Reades,et al. Independent stress control and triaxial extension tests on sand , 1976 .

[3] A. W. Bishop,et al. A Note on the Drained Strength of Sand Under Generalized Strain Conditions , 1969 .

[4] Kenji Ishihara,et al. ANISOTROPIC DEFORMATION CHARACTERISTICS OF SAND UNDER THREE DIMENSIONAL STRESS CONDITIONS , 1979 .

[5] John F. Peters,et al. Shear Band Formation in Triaxial and Plane Strain Tests , 1988 .

[6] Ronald F. Scott,et al. A New Soil Testing Apparatus , 1967 .

[7] Teruo Nakai,et al. Shear Behaviors of Sand and Clay Under Three-Dimensional Stress Condition , 1983 .

[8] J. Rice. Localization of plastic deformation , 1976 .

[9] J. M. Duncan,et al. CUBICAL TRIAXIAL TESTS ON COHESIONLESS SOIL , 1973 .

[10] F. Tatsuoka,et al. Triaxial Compressive and Extension Strength of Sand Affected by Strength Anisotropy and Sample Slenderness , 1988 .

[11] Dimitrios Kolymbas,et al. On Some Issues in Triaxial Extension Tests , 1991 .

[12] K. H. Roscoe,et al. AN EVALUATION OF TEST DATA FOR SELECTING A YIELD CRITERION FOR SOILS WITH DISCUSSION , 1963 .

[13] J. Rice,et al. CONDITIONS FOR THE LOCALIZATION OF DEFORMATION IN PRESSURE-SENSITIVE DILATANT MATERIALS , 1975 .

[14] L. Barden,et al. A Note on the Drained Strength of Sand Under Generalized Strain Conditions , 1969 .