Study of the Influence of the Granulation Modes of Cu2S Melt on the Granulometric and Structural Characteristics of Particles

This study presents the results of experiments conducted on the granulation of copper sulfide (Cu 2 S) melt. The granulometric characteristics of the samples are calculated as a function of the melt temperature. An increase in the melt temperature to 1,350°C promotes the formation of particles with...

Full description

Saved in:
Bibliographic Details
Published inMetallurgist (New York) Vol. 65; no. 1-2; pp. 82 - 89
Main Authors Nechvoglod, O. V., Sergeeva, S. V., Agafonov, S. N.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.05.2021
Springer Nature B.V
Subjects
Characterization and Evaluation of Materials
Chemical composition
Chemistry and Materials Science
Cooling
Copper sulfides
Granular materials
Granulation
Hexagonal lattice
Inclusions
Lattice vibration
Materials Science
Mathematical analysis
Melt temperature
Metallic Materials
Monoclinic lattice
Particle size
Polydispersity
Spheroidizing
Temperature
mean squared deviation
polydispersity coefficient
size grade
spheroidization time
cooling time
copper sulfide
structure
granulation
Online AccessGet full text

Cover

More Information
Summary:This study presents the results of experiments conducted on the granulation of copper sulfide (Cu 2 S) melt. The granulometric characteristics of the samples are calculated as a function of the melt temperature. An increase in the melt temperature to 1,350°C promotes the formation of particles with a particle size of –10.0 +5.0 mm, and a decrease in the melt temperature to 1,250°C promotes the formation of particles with smaller size grades (i.e., –1.6 +1.0, –1.0 +0.63, and –0.63 +0.063 mm). With an increase in temperature, the mean squared deviation of particle size from the average value and the degree of polydispersity decreases to some extent. This study also estimates the influence of the melt temperature on the shape of the granules. The cooling and spheroidization times of particles during granulation at the melt temperatures of 1,250°C, 1,300°C, and 1,350°C were calculated. In the temperature range under consideration for all of the investigated size grades of particles, the cooling time exceeded the spheroidization time, which contributed to the formation of spherical particles. The melt temperature did not significantly affect the chemical composition of Cu 2 S granules. The main phase component of the granules was chalcosine (Cu 2 S) with a monoclinic lattice of more than 80%. Chalcosine (Cu 2 S) with a hexagonal lattice of 8% to 9% and digenite (Cu 1.78 S) with 4% to 12% were also identified. Dispersed inclusions of metallic copper were also detected.
ISSN:0026-0894
1573-8892
DOI:10.1007/s11015-021-01135-8