Microscopic Characterization of Compound Layers

Practical Metallography Pub Date : 2023-03-25 DOI:10.1515/pm-2022-1028

M. Sommer, Wolf-Achim Kahl, R. Fechte-Heinen, S. Hoja

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引用次数: 2

Abstract

Abstract The properties of the compound layer have a significant influence on the lifetime of nitrided surface layers. In addition to a sufficient thickness, the compound layer characteristics include the phase composition and the porosity. Complex methods such as GD-OES or XRD are already used to qualitatively and quantitatively determine the phase composition of the compound layer. Particularly with regard to the characterization of the pore seam, no method has yet been identified that can be clearly recommended. In this work, the extent to which compound layers can already be characterized with the aid of microscopic examination methods is shown. For this purpose compound layers with varying thickness, phase composition and porosity were formed in the surface area of the material EN31CrMoV9 and EN42CrMo4 by different nitriding processes. It is demonstrated how the phase composition of compound layers can be studied qualitatively by means of special etchants on metallographic cross sections and subsequently quantitatively by image analysis. A more extensive characterization of the pore seam beyond the state of the art could be performed by scanning electron microscopy studies as well as 3D X-ray microscopy.

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复合层的微观表征

摘要复合层的性能对氮化表面层的寿命有重要影响。除了足够的厚度外，复合层的特征还包括相组成和孔隙率。复杂的方法，如GD-OES或XRD已经被用于定性和定量地确定复合层的相组成。特别是关于孔缝的表征，还没有确定可以明确推荐的方法。在这项工作中，在何种程度上，化合物层已经可以用显微镜检查方法的帮助下进行表征。为此，采用不同的渗氮工艺在EN31CrMoV9和EN42CrMo4材料的表面形成不同厚度、相组成和孔隙率的复合层。本文论证了如何利用金相截面上的特殊蚀刻剂对复合层的相组成进行定性研究，然后通过图像分析进行定量研究。通过扫描电子显微镜研究以及3D x射线显微镜，可以对现有技术之外的孔缝进行更广泛的表征。

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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Practical Metallography

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