原文传递 CHARACTERIZING GRANULAR MATERIAL COARSENESS AND MICROMECHANICAL PROPERTIES WITH A SMALL-DIAMETER PENETROMETER.
题名: CHARACTERIZING GRANULAR MATERIAL COARSENESS AND MICROMECHANICAL PROPERTIES WITH A SMALL-DIAMETER PENETROMETER.
作者: Johnson-JB
关键词: Accuracy-; Compressive-strength; Granular-materials; Micromechanical-theory; Microstructure-; Modulus-of-elasticity; Penetration-resistance; Penetrometers-; Properties-of-materials; Snow-
摘要: A micromechanical theory and data from a penetrometer with a small base area were used to characterize the average microstructural and micromechanical properties of snow, a granular material composed of ice. The micromechanical theory also was used to describe penetration in soil and successfully explains the dependence of penetration resistance for granular materials on penetrometer base area. Material coarseness (microstructural element dimension), elastic modulus, and compressive strength were determined by interpreting penetration resistance measurements by the micromechanical theory. Predictions of the macroscale (continuum) mechanical properties for the snow were made by the micromechanical measurements and theory. The average microstructural dimensions for snow were 3.6 mm (coarse grained) and 1.45 mm (fine grained). Micromechanical strength and modulus of elasticity of snow depend on internal structure and bonding at grain boundaries; grain size by itself was not a good indicator of the mechanical properties for snow. The accuracy of determining micromechanical and microstructural properties for individual microstructural elements decreases as the ratio of the penetrometer base area to the microstructural element cross-sectional area increases. Average micro- and macroscale structural and mechanical properties of a granular material can be determined by interpreting penetration resistance data with a micromechanical penetration theory. The resolution of measurement of material properties increases as the size of the penetrometer tip decreases.
总页数: Transportation Research Record. 2000. (1714) pp83-88 (4 Fig., 3 Tab., 6 Ref.)
报告类型: 科技报告
相关文献
检索历史
应用推荐