If. Vasconcelos et Rs. De Figueiredo, Driving mechanisms on mechanical alloying: Experimental and molecular dynamics discussions, NANOSTR MAT, 11(7), 1999, pp. 935-946
Mossbauer spectroscopy, X-rays diffraction and differential scanning calori
metry are used to study a fee Fe 45at.% Cu nanocrystalline solid solution o
btained by mechanical alloying. These results supported by molecular dynami
cs simulations are used to discuss some models in mechanical alloying. The
kinetic energy ou even a function of it appears to be the parameter driving
the reactions inside the mill. Impact frequency and powder mass seem to co
ntribute only on the time scale. A capilarity pressure is shown to exist in
order to alloy the nanocrystalline grains. Despite this, an extra energy,
provided by the shocks, is shown to be necessary to start up the process. F
inal product appears to be a function of strains/stress fields and material
response. (C) 1999 Acta Metallurgica Inc.