用替代动力学模型和积分法模拟ASTM A36钢渗硼动力学

Q3 Materials Science

Koroze a ochrana materialu Pub Date : 2021-05-01 DOI:10.2478/kom-2021-0004

Z. Abdellah, M. Keddam, P. Jurči

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引用次数: 6

摘要

在本研究中，提出了两种不同的数学模型来估计ASTM A36钢的Fe2B层中硼的扩散率，在1173 ~ 1273 K范围内，暴露时间为2 ~ 8 h。无论渗硼条件如何，形成这种层所需的硼化物潜伏期是恒定的。在这两种方法中，硼在铁相中的扩散率在不饱和基体中被考虑。第一种方法由(Fe2B/衬底)界面处的质量平衡方程导出，第二种方法采用积分扩散模型。两种方法计算出的ASTM A36钢的硼活化能非常相似(161.65和160.96 kJ mol-1)。然后，这些活化能值与文献的结果进行了对比。通过比较在1123 K温度下测量2.5 h的Fe2B层厚的实验值与模拟值，对这两种方法进行了实验验证。最后，Fe2B层厚的预测值与实验测量值基本一致。

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Simulation of boronizing kinetics of ASTM A36 steel with the alternative kinetic model and the integral method

Abstract In this study, two different mathematical models have been proposed for estimating the diffusivities of boron in the Fe2B layer on ASTM A36 steel in the range of 1173 to 1273 K with exposure times of 2 to 8 h. The boride incubation period required for the formation of such a layer was constant regardless of the boriding conditions. In both approaches, the boron diffusivity in the iron phase was considered in an unsaturated matrix. The first approach was derived from the mass balance equation at the (Fe2B/substrate) interface while the second approach employed the integral diffusion model. The calculated values of boron activation energies for ASTM A36 steel were found to be very comparable for the two approaches (161.65 and 160.96 and kJ mol-1). Afterwards, these values of activation energy were confronted with the results from the literature. Experimental validation of these two approaches has been done by comparing the experimental value of Fe2B layer thickness measured at 1123 K for 2.5 h with the simulated values. Finally, the predicted values of Fe2B layer thickness were in line with the experimental measurement.

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来源期刊

Koroze a ochrana materialu Materials Science-Materials Science (all)

CiteScore

3.00

自引率

0.00%

发文量

审稿时长

14 weeks