论文信息 - A study of particle size distributions

A study of particle size distributions

Abstract The properties of a size distribution of particulate materials are systematically discussed. In order to avoid possible conceptual problems and difficulty in dealing with a distribution, some boundary conditions are given, based on which the limitations of the distribution functions in the literature are discussed. A search for an alternative to these functions is made. Johnson's S B function is suggested to be the function that can represent all the unimodal size distributions of particles. Its applicability is proved from the theory of distributions in statistics. It is shown that the normal, log—normal, Rosin—Rammler and even the modified beta distributions can be satisfactorily fitted by the S B function. The conversion of some commonly used two-parameter distribution functions into the S B function is presented, which can be used as a general guide in practice. The methods of fitting curves with special reference to their uses in powder technology are also discussed.

N. Standish | N. Standish | A. Yu | Aibing Yu

[1] G. Tarján. A contribution to particle size distribution functions , 1974 .

[2] F. Kottler. The distribution of particle sizes , 1950 .

[3] N L JOHNSON,et al. Bivariate distributions based on simple translation systems. , 1949, Biometrika.

[4] N. Standish,et al. Estimation of the Porosity of Particle Mixtures by a Linear-Mixture Packing Model , 1991 .

[5] Mark D. Normand,et al. Description of normal, log—normal and Rosin—Rammler particle populations by a modified version of the beta distribution function , 1988 .

[6] P. Rosin. The Laws Governing the Fineness of Powdered Coal , 1933 .

[7] R. Irani,et al. The Agreement between Independent Methods for Particle Size Distribution Measurements on Finely Divided Powders Including Phosphates , 1959 .

[8] N. Standish,et al. An analytical—parametric theory of the random packing of particles , 1988 .

[9] P. Roller. Law of size distribution and statistical description of particulate materials , 1937 .

[10] N. Standish,et al. Porosity calculations of multi-component mixtures of spherical particles , 1987 .

[11] R. Irani. The Interpretation of Abnormalities in the Log-Normal Distribution of Particle Size , 1959 .

[12] N. L. Johnson,et al. Systems of frequency curves generated by methods of translation. , 1949, Biometrika.