Dmitri V. Malakhov scite author profile

We have evaluated controlled decarburization as a method for probing the effect of alloying elements on ferrite growth from austenite. The technique permits the exploration of longer-time ferrite layer growth; it minimizes the effects of interface structure on ferrite growth; and it permits the isolation of the effects of temperature and alloying element concentration on ferrite/austenite interface motion. The study of the decarburization of initially homogeneous Fe-C-Ni alloys was complemented by experiments using specimens with a controlled nickel concentration gradient. Although the decarburization method yields consistent results at longer times, it is found to be less appropriate for the study of initial ferrite growth. Nucleation in the gas/solid interface region, coupled with uncertainties about the precise time of decarburization, leads to large relative errors at the earliest times. For these reasons, the method is considered a valuable complement to studies based on precipitation boundary conditions.

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A crystallographically consistent optimization of the Zn–Fe system

Nakano¹,

Malakhov²,

Purdy³

2005

Calphad

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A full thermodynamic optimization of the Zn–Fe–Al system within the 420–500 ∘C temperature range

Nakano

Malakhov

Yamaguchi

et al. 2007

Calphad

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Effect of Ce and La on microstructure and properties of a 6xxx series type aluminum alloy

Hosseinifar

Malakhov

2008

J Mater Sci

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