Please use this identifier to cite or link to this item: https://repository.unej.ac.id/xmlui/handle/123456789/116014
Title: Temperature dependence diffusion coefficients of iron, boron and iron-boron calculated by molecular dynamics method
Authors: ARKUNDATO, Artoto
HASAN, Moh.
PURWANDARI, Endhah
PRAMUTADI, A.
AZIZ, F
Keywords: Temperature dependence diffusion coefficients of iron
Issue Date: 3-May-2019
Publisher: Series: Journal of Physics
Abstract: It has been calculated the diffusion coefficient of iron, boron and iron-boron system as temperature function using molecular dynamics simulation method. The diffusion coefficient is very important for knowing the physical processes. However, the diffusion coefficient data are not always available from experimental measurements, as so many applications using this data as an input of calculation. The computational molecular dynamics method shows a powerful tool for predicting the needed properties of material under consideration. In this work we predict the diffusion coefficient based on the Lennard-Jones potential under scheme of Lorentz-Berthelot mixing formula as the atomic interaction of material for molecular dynamics simulation. From this work we have determined the temperature dependence diffusion coefficient: DFe(T)=5.2010-7 .exp(-393.82/T), DB(T)=1.7410-6 .exp(-297.62/T, DB→Fe-B(T) =2.5010-6 .exp(-411.29/T) and DFe→FeB(T)=5.27410-9 .exp(-930/T) in the unit of m2 /s.
URI: https://repository.unej.ac.id/xmlui/handle/123456789/116014
Appears in Collections:LSP-Conference Proceeding

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