Characterization of Graded Subsurface Zones in Industrial Case-Hardening Using a Non-Destructive Testing System

IF 0.3 Q4 THERMODYNAMICS HTM-Journal of Heat Treatment and Materials Pub Date : 2021-06-01 DOI:10.1515/htm-2021-0006

R. Gansel, C. Zimmermann, L. Fricke, M. Lüdtke, H. Klümper-Westkamp, R. Fechte-Heinen, H. Maier, D. Zaremba

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Abstract

Abstract For process monitoring and quality assurance of case-hardened components, the determination of the case-hardening depth in the manufacturing process after hardening of the subsurface layer is a quality verification that is often required in industry. Currently, these quality assurance tests can only be realized with destructive measures. During case-hardening, the essential microstructural formation, and thus the key component properties are developed during the heat treatment in the cooling section. The testing technique used in the present study is based on the analysis of harmonic signals of eddy current testing. The aim of this project was to achieve an early identification of incorrect cooling processes in the case of a known transformation behaviour of the components during cooling. The data collected in the industrial hardening process show that an evaluation of the carburizing process on the basis of the case-hardening depth can be carried out non-destructively during component cooling and in the cooled state with the use of eddy current technology.

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用无损检测系统表征工业硬化中分级次表层

摘要为了对淬火件进行工艺监控和质量保证，在制造过程中对次表层淬火后的淬火深度进行确定是工业中经常需要进行的质量验证。目前，这些质量保证测试只能通过破坏性措施来实现。在淬火过程中，在冷却段的热处理过程中形成基本的显微组织，从而形成关键的部件性能。本研究采用的检测技术是基于涡流检测的谐波信号分析。该项目的目的是在已知组件在冷却过程中的转换行为的情况下，实现对不正确冷却过程的早期识别。在工业淬火过程中收集的数据表明，利用涡流技术可以在部件冷却和冷却状态下无损地进行基于表面硬化深度的渗碳过程评估。

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