纯铁渗氮过程中复合层生长的模拟

Scientific Research and Essays Pub Date : 2016-07-15 DOI:10.5897/SRE2016.6405

E. M. Hernández, J. Otero, A. Jiménez, R. D. Santiago, R. Martinez, F. Castillo, J. Oseguera

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引用次数: 4

摘要

本文提出了一个描述纯铁气体或等离子体氮化过程中氮层生长动力学和氮浓度分布的物理模型。该模型涉及一维移动边值问题，该问题假定初始浓度曲线为线性，并在扩散区提出了一个新的边界条件。该模型采用经典有限差分格式(FDM-CS)和热平衡积分法(HBIM)求解。由于所提出的扩散区边界条件，可以通过在渐近时间限制下对质量输运理论进行简单的物理分析来验证数值解。对所得结果进行了比较，并观察到与现有实验数据和文献中报道的其他近似解符合得很好。关键词:高级表征，涂层，等离子体渗氮，有限差分，热平衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modeling of compound layer growth during nitriding of pure iron

This paper presents a physical model which describes the layer growth kinetics and the nitrogen concentration profiles during gaseous or plasma nitriding of pure iron. The model is related to a one dimensional moving boundary value problem where the initial concentration profiles are assumed to be linear and a new boundary condition at the diffusion zone is proposed. The model is solved by using a classical finite difference scheme (FDM-CS) and the Heat Balance Integral Method (HBIM). Due to the proposed boundary condition at the diffusion zone, the numerical solutions can be validated through a simple physical analysis of mass transport theory in the asymptotic time limit. The results obtained are compared, and observed to be in good agreement with available experimental data and other approximate solutions reported in the literature. Key words: Advanced characterization, coatings, plasma nitriding, finite difference, heat balance.

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Scientific Research and Essays 综合性期刊-综合性期刊

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3.3 months