Evaluation of Cooling Characteristics of Quenchants by Using Inverse Heat Conduction Methods and Property Prediction

Author:

Felde Imre1,Réti Tamás2

Affiliation:

1. Bay Zoltán Foundation

2. Széchenyi University

Abstract

A sequential numerical method for characterization of hardening performance of quenchants applied for steel quenching is outlined here. This novel method is based on the specific processing of measured time–temperature samples performed as a result of cooling curve tests. The heat transfer coefficient, as a function of surface temperature, characterises the heat transfer during cooling and is calculated using an iterative inverse algorithm. The heat transfer coefficient is used for calculation of the microstructural constituents and the hardness profile of cylindrical samples of arbitrary diameters. The hardening performance of the media is evaluated by the estimated hardness of the specimen obtained by heat treatment.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference9 articles.

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2. M. E. Dakins, G. E. Totten and R. W. Heins: Cooling curve shape analysis can help evaluate quenchants , Heat Treat., 1988, 12, 38.

3. S. Segerberg and J. Bodin: Controlling the quench process for more consistent hardening , Heat Treat., 1988, 20, 26-28.

4. M. Deck, P. Damay and F. Le Strat: Proc. Conf. ATTT 90 Internationaux de France du Traitement Thermique, Le Mans, France, September 1990, Association Technique de Traitement Thermique, 49.

5. J. Bodin and S. Segerberg: Measurement and evaluation of the quenching power of quenching media for hardening , in Proc. 1st Int. Conf. on Quenching and the control of distortion , 1; 1992, Materials Park, OH, ASM International.

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