Mechanical alloying of MoSi2 with ternary alloying elements. Part 2 - computer simulation


Autoria(s): Heron, A. J.; Schaffer, G. B.
Data(s)

01/01/2003

Resumo

A computer model of the mechanical alloying process has been developed to simulate phase formation during the mechanical alloying of Mo and Si elemental powders with a ternary addition of Al, Mg, Ti or Zr. Using the Arhennius equation, the model balances the formation rates of the competing reactions that are observed during milling. These reactions include the formation of tetragonal C11(b) MOSi2 (t-MoSi2) by combustion, the formation of the hexagonal C40 MoSi2 polymorph (h-MoSi2), the transformation of the tetragonal to the hexagonal form, and the recovery of t-MoSi2 from h-MoSi2 and deformed t-MoSi2. The addition of the ternary additions changes the free energy of formation of the associated MoSi2 alloys, i.e. Mo(Si, Al)(2), Mo(Mg, Al)(2), (Mo, Ti)Si-2 (Mo, Zr)Si-2 and (Mo, Fe)Si-2, respectively. Variation of the energy of formation alone is sufficient for the simulation to accurately model the observed phase formation. (C) 2003 Elsevier B.V. All rights reserved.

Identificador

http://espace.library.uq.edu.au/view/UQ:67350

Idioma(s)

eng

Publicador

Elsevier Science SA

Palavras-Chave #Materials Science, Multidisciplinary #Mosi2 #Mechanical Alloying #Computer Simulation #Milling Dynamics #Kinetics #Programs #Nanoscience & Nanotechnology #C1 #291403 Alloy Materials #671099 Fabricated metal products not elsewhere classified
Tipo

Journal Article