Abstract
A high-energy high-capacity ball mill, which can be easily scaled-up, for the synthesis of nanophase materials is described. The synthesis of nanophase iron carbides is shown to be feasible with the new mill for batch charges of up to 120 g in 10 h. Kinetic effects are presented. It is shown that a key parameter is represented by the balls impulsive load.
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References
Matteazzi, P., Basset, D., Miani, F. and Le Caër, G. (1993) ‘Mechanosynthesis of Nanophase Materials’, Nanostructured Materials, in press.
Maurice, D.R. and Courtney, T.H. (1990) ‘The Physics of Mechanical Alloying: A First Report’, Metall. Trans. 21A, 289–303.
Basset, D., Matteazzi, P. and Miani, F. (1993) ‘Ball Velocities and Energy Needs in a Mill Designed for the Synthesis of Nanophase Materials’, this volume and ‘Measuring the Impact Velocities of Balls in High Energy Mills’, Mater. Sci. Eng., in press.
Matteazzi, P., Miani, F. and Le Caër, G.(1991) ‘Kinetic Aspects in the Mechanosynthesis of Iron Carbides by Room Temperature Grinding of Elemental Powders’, J. Hard Materials 2 (3–4), 171–182.
Le Caër, G. and Matteazzi, P. (1991) ‘Mössbauer Study of Mechanosynthesized Iron Carbides’, Hyperfine Interactions 66, 309–318.
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© 1994 Springer Science+Business Media Dordrecht
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Basset, D., Matteazzi, P., Miani, F. (1994). High-Capacity High-Energy Ball Mill for Nanophase Materials. In: Hadjipanayis, G.C., Siegel, R.W. (eds) Nanophase Materials. NATO ASI Series, vol 260. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-1076-1_19
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DOI: https://doi.org/10.1007/978-94-011-1076-1_19
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-4469-1
Online ISBN: 978-94-011-1076-1
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