论文信息 - Assessment of localized deformations in sand using X-ray computed tomography

Assessment of localized deformations in sand using X-ray computed tomography

The internal fabric and localized deformation patterns of triaxial sand specimens were investigated using computed tomography (CT). Three displacement-controlled, conventional, drained axisymmetric (triaxial) experiments were conducted on dry Ottawa sand specimens at very low effective confining stresses (0.05, 0.52, and 1.30 kPa) in a microgravity environment aboard the Space Shuttle during the NASA STS-79 mission. CT scanning was performed on these flight specimens, as well as on an uncompressed specimen and a specimen tested in a terrestrial laboratory at 1.30 kPa effective confining stress. CT demonstrated high accuracy in detecting specimen inhomogeneity and localization patterns. Formation of deformation patters is dependent on the effective confining stress and gravity. Multiple symmetrical radial shear bands were observed in the specimens tested in a microgravity environment. In the axial direction, two major conical surfaces were developed. Nonsymmetrical spatial deformation was observed in the 1-G specimen. Analysis tools were developed to quantify the spatial density change. Void ratio variation within and outside the shear bands is calculated and discussed.

[1] William D. Carlson,et al. Three‐dimensional quantitative textural analysis of metamorphic rocks using high‐resolution computed X‐ray tomography: Part II. Application to natural samples , 1997 .

[2] R. Chambon,et al. Void ratio evolution inside shear bands in triaxial sand specimens studied by computed tomography , 1996 .

[3] D. H. Phillips,et al. Measuring physical density with X-ray computed tomography , 1997 .

[4] R. Ketcham,et al. Three‐dimensional quantitative textural analysis of metamorphic rocks using high‐resolution computed X‐ray tomography: Part I. Methods and techniques , 1997 .

[5] Ioannis Vardoulakis,et al. Calibration of constitutive models for granular materials using data from biaxial experiments , 1985 .

[6] Boris Jeremić,et al. MECHANICS OF GRANULAR MATERIALS AT Low EFFECTIVE STRESSES , 1998 .

[7] C. J. Gantzer,et al. Fractal Dimension and Lacunarity of Bulk Density Determined with X-ray Computed Tomography , 1996 .

[8] K. Roscoe. THE INFLUENCE OF STRAINS IN SOIL MECHANICS , 1970 .

[9] S. Sture,et al. Digital Imaging Techniques for Assessment of Homogeneity of Granular Materials , 1996 .

[10] L. Coshell,et al. X-ray computed tomography of Australian oil shales: non-destructive visualization and density determination , 1994 .

[11] R. Bracewell. Strip Integration in Radio Astronomy , 1956 .