Albertin, E. and Sinatora, A. (2001) Effect of Carbide Fraction and Matrix Microstructure on the Wear of Cast Iron Balls Tested in a Laboratory Ball Mill. Wear, 250, 492-501

23 rows Albertin, E. and Sinatora, A. (2001) Effect of Carbide Fraction and Matrix Microstructure on the

Nov 12, 2014 E. Albertin and A. Sinatora, Effect of carbide fraction and matrix microstructure on the wear of cast iron balls tested in a laboratory ball mill, Wear, 250(2001), No. 1–12, p. 492. Article Google Scholar [28]

Oct 18, 2017 Oct 18, 2017 The mean abrasion rate of type J and K alloyed white cast iron balls was 0.43 mm /m, or about half that of the better steel balls. Discussion. Although the true wear test of a grinding ball is its life in a real ball mill, the laboratory tests of impact and abrasion may serve as a guide to expected ball life

Effect of carbide fraction and matrix microstructure on the wear of cast iron balls tested in a laboratory ball mill. Wear 250.1-12 (2001): 492-501. DOI: 10.1016/s0043-1648(01)00664-0

Effect of carbide fraction and matrix microstructure on the wear. Hematite, phosphate rock and quartz sand were wet ground, wear of cast iron balls tested in a laboratory ball mill, 400 mesh alumina, at a load of 985N 3

Oct 16, 2016 Oct 16, 2016 The variations of microstructure and mechanical properties of a high-chromium cast iron for rolls were studied from as-cast to the final heat treatments. Results show that the as-cast microstructure of the HCCI consists of M 7 C 3 carbide, M 23 C 6 carbide, martensite matrix, and retained austenite. The large dendritic M sub 7 /sub C sub 3 /sub carbide surrounds the matrix

Matrix microstructure effect on the abrasion wear resistance of high-chromium white cast iron ... Matrix microstructure effect on the abrasion wear resistance of high-chromium white cast iron. Journal of Materials Science, 1989

Jan 04, 2016 The scope is to improve the wear behaviour of the basic cast iron (0.77 % Mn) actually used in ball mill production. Characterizations carried out have indicated that the basic cast iron is a 15 % chromium cast iron whose microstructure after heat treatment is potentially constituted of martensite and some retained austenite

Aug 21, 2013 Aug 21, 2013 E. Albertin and A. Sinatora, “Effect of carbide fraction and matrix microstructure on the wear of cast iron balls tested in a laboratory ball mill,” Wear, vol. 250-251, no. 1, pp. 492–501, 2001. View at: Publisher Site | Google Scholar