论文信息 - Quantitative characterization of second-phase populations

Quantitative characterization of second-phase populations

Abstract We have quantitatively characterized nearest- and near-neighbor distances and local-area fractions of second-phase populations in a matrix using automatic image analysis and Dirichlet cell tessellation procedures. These procedures were applied to distributions of sulfide inclusions and carbides in six steels and to a composite of graphite fibers in aluminum. In addition, computer-generated random particle distributions were obtained for the different steels and the composite using a distribution of particle sizes with the same means and standard deviations as the actual distributions. Comparison of the actual second-phase particle distributions with the generated distributions showed that the sulfide distributions consisted of clusters superimposed on a random spatial distribution, while the carbide distributions and the graphite-fiber distributions are close to random.

O. Richmond | O. Richmond | W. A. Spitzig | J. F. Kelly | J. Kelly

[1] O. Richmond,et al. The influence of hydrostatic pressure on the flow stress and ductility of a spherodized 1045 steel , 1983 .

[2] A. Ardell,et al. Average nearest neighbor distances between uniformly distributed finite particles. Topical report , 1971 .

[3] Richard J. Lee,et al. Quantitative Metallography By Computer-Controlled Scanning Electron Microscopy , 1981 .

[4] W. Spitzig. Effect of sulfide inclusion morphology and pearlite banding on anisotropy of mechanical properties in normalized C-Mn steels , 1983 .

[5] O. Richmond,et al. Use of the Dirichlet tessellation for characterizing and modeling nonregular dispersions of second-phase particles , 1983 .

[6] Anders Hald,et al. Statistical Theory with Engineering Applications , 1952 .

[7] W. Spitzig,et al. SEM-based automatic image analysis of sulfide inclusions in hot-rolled carbon steels , 1983 .

[8] H. Schwarz,et al. The characterization of the arrangement of feature centroids in planes and volumes , 1983 .

[9] J. Cahn,et al. ON THE USE OF LINEAL ANALYSIS FOR OBTAINING PARTICLE SIZE DISTRIBUTION FUNCTIONS IN OPAQUE SAMPLES , 1956 .