Use of Taguchi Methods for Hierarchy of Influence Factors in the Application of Carbonitration in a Fluidized Bed Steel for 41Cr4 Steel

The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science Pub Date : 2021-09-15 DOI:10.35219/mms.2021.3.07

Nelu Cazacu

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Abstract

The work is based on carbonitriding in a fluidized layer with methane and ammonia gas applied to 41Cr4 steel samples. To achieve the best possible results, other factors must be taken into account, than those specific to carbonitring. It was necessary to use a partially factorial working procedure due to the increase in the number of factors. An A18 matrix has been used, with 18 lines of experiments in which three levels have been modified for 6 factors. The objective function was fixed at the final hardness after carbonitriding, hardening and tempering. The carbonitriding was performed in fluidized bed with granular solid ground and sorted to 0.1- to 0.16mm, and brought to fluidization with a mixture of methane and ammonia. The hardening has been done directly after carbonitriding in the fluidized bed. The experiments have been performed according to Taguchi Methods and the results indicate an optimal regime and the influence of the factors considered on the hardness after the thermo-chemical treatment and the thermal treatment. Metallographic analysis has been performed on the carbonitrided layer.

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用田口法分析影响因素在41Cr4钢流化床渗碳工艺中的应用

这项工作是基于对41Cr4钢样品施加甲烷和氨气的流态化层中的碳氮化。为了达到最好的效果，除碳化外，还必须考虑其他因素。由于因子数量的增加，有必要采用部分阶乘的工序。使用A18矩阵，18行实验，其中3个水平被修改为6个因素。将目标函数定在碳氮共渗、淬火回火后的最终硬度。碳氮化在颗粒状固体磨碎的流化床中进行，分选至0.1 ~ 0.16mm，并与甲烷和氨的混合物进行流化。在流化床中碳氮共渗后直接进行硬化。根据田口法进行了实验，结果表明了热化学处理和热处理对硬度的影响是最优的。对碳氮化层进行了金相分析。

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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来源期刊

The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science

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8 weeks