B. Bouarour scite author profile

In the present work, a thermodynamic study was carried out in order to analyze the thermodynamic stability of the and phases in equilibrium with the phase using the calculation of phase diagrams (Calphad) formalism. The two phases and are modelled as substitutional and interstitial solid solutions of boron. The expressions of the chemical potentials ofBandFeare derived in both phases to perform the thermodynamic calculations. A comparison is made between the results provided by the substitutional and interstitial models and good agreement is observed between these two models.

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Boriding kinetics of C35 steel: estimation of boron activation energy and the mass gain

Bouarour

Кеддам

Allaoui

et al. 2014

Metall. Res. Technol.

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The effective diffusion coefficient of boron in the Fe₂B layers formed on the iron substrate

Кеддам

Bouarour

Abdellah

et al. 2013

MATEC Web of Conferences

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Abstract. In this current work, the boron diffusion coefficient in Fe 2 B was firstly evaluated using a diffusion model. It considers the effect of the incubation times required to form the Fe 2 B layers by the paste-boriding process on the iron substrate. This model solves the mass balance equation at the (Fe 2 B/substrate) interface under certain assumptions. Afterwards, the effective boron diffusion coefficient in Fe 2 B was evaluated through an application of a simple equation. As a result, the estimated value of boron activation energy in the presence of chemical stresses was found to be equal to 146.5 kJ mol -1 on the basis of experimental data taken from the literature.

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Growth kinetics of the compound layers: Effect of the nitriding potential

et al. 2009

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B. Bouarour

Simulation of the boriding kinetics of Fe₂B layers on iron substrate by two approaches

The Phase Stability in the Fe-B Binary System: Comparison between the Interstitial and Substitutional Models

Boriding kinetics of C35 steel: estimation of boron activation energy and the mass gain

The effective diffusion coefficient of boron in the Fe₂B layers formed on the iron substrate

Growth kinetics of the compound layers: Effect of the nitriding potential

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B. Bouarour

Simulation of the boriding kinetics of Fe2B layers on iron substrate by two approaches

The Phase Stability in the Fe-B Binary System: Comparison between the Interstitial and Substitutional Models

Boriding kinetics of C35 steel: estimation of boron activation energy and the mass gain

The effective diffusion coefficient of boron in the Fe2B layers formed on the iron substrate

Growth kinetics of the compound layers: Effect of the nitriding potential

Contact Info

Product

Resources

About

Simulation of the boriding kinetics of Fe₂B layers on iron substrate by two approaches

The effective diffusion coefficient of boron in the Fe₂B layers formed on the iron substrate