Marcel Salamon scite author profile

Diffusion in molybdenum disilicideThe diffusion behaviour of the high-temperature material molybdenum disilicide (MoSi 2 ) was completely unknown until recently. In this paper we present studies of Mo selfdiffusion and compare our present results with our already published studies of Si and Ge diffusion in MoSi 2 .Self-diffusion of molybdenum in monocrystalline MoSi 2 was studied by the radiotracer technique using the radioisotope 99 Mo. Deposition of the radiotracer and serial sectioning after the diffusion anneals to determine the concentration-depth profiles was performed using a sputtering device.Diffusion of Mo is a very slow process. In the entire temperature region investigated (1437 to 2173 K), the 99 Mo diffusivities in both principal directions of the tetragonal MoSi 2 crystals obey Arrhenius laws, where the diffusion perpendicular to the tetragonal axis is faster by two to three orders of magnitude than parallel to it. The activation enthalpies for diffusion perpendicular and parallel to the tetragonal axis are Q ? ¼ 468 kJ mol À1 (4.85 eV) and Q k ¼ 586 kJ mol À1 (6.07 eV), respectively. Diffusion of Si and its homologous element Ge is fast and is mediated by thermal vacancies of the Si sublattice of MoSi 2 . The diffusion of Mo is by several orders of magnitude slower than the diffusion of Si and Ge. This large difference suggests that Si and Mo diffusion are decoupled and that the diffusion of Mo likely takes place via vacancies on the Mo sublattice.

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Self-diffusion of silicon in molybdenum disilicide

Salamon

Strohm

Voss

et al. 2004

Philosophical Magazine

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Growth of Intermetallic Phases in the Al-Mg System

Njiokep

Salamon

Mehrer

2001

DDF

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Diffusion in the B20-type phase FeSi

Salamon¹,

Mehrer²

1999

Philosophical Magazine A

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Marcel Salamon

Diffusion in intermetallic phases of the Fe–Al and Fe–Si systems

Diffusion in molybdenum disilicide

Self-diffusion of silicon in molybdenum disilicide

Growth of Intermetallic Phases in the Al-Mg System

Diffusion in the B20-type phase FeSi

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