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Purpose: Current paper presents investigation of specimens after single frequency induction hardening process. The main aim is to compare microstructure of the material after the process conducted with different voltage on the induction coil. Moreover, two different steel grades are used for comparative reasons. As the final result it is desired to obtain sufficient parameters for the process in aim to obtain proper surface treatment of the material. Design/methodology/approach: The objectives of the research are achieved by using single-frequency induction hardening device with varying voltage. Two different steel grades were treated with change of the induction voltage from 300 to 600 V. Findings: In the outcomes of the study, the main conclusion is that there is an impact of the induction voltage in the hardening process on the microstructure of treated elements, both for 40H41Cr4 and 40HNMA36NiCrMo16 steels. Research limitations/implications: Obtained results will be used for much more complex investigation of the induction hardening process in future to introduce more exact parameters and double-frequency induction hardening process for complex geometries as gears. Originality/value: The originality of the research is based on the specific process and the materials that are being submitted to the comparative analysis. Moreover, executed research will be a basis for more complex induction hardening processes in the future.
Wydawca
Rocznik
Tom
Strony
61--68
Opis fizyczny
Bibliogr. 12 poz., rys., tab.
Twórcy
autor
- Research and Development Laboratory for Aerospace Materials, Rzeszow University of Technology, Al. Powstancow Warszawy 12, 35-959 Rzeszów, Poland
autor
- Research and Development Laboratory for Aerospace Materials, Rzeszow University of Technology, Al. Powstancow Warszawy 12, 35-959 Rzeszów, Poland
autor
- Research and Development Laboratory for Aerospace Materials, Rzeszow University of Technology, Al. Powstancow Warszawy 12, 35-959 Rzeszów, Poland
autor
- Research and Development Laboratory for Aerospace Materials, Rzeszow University of Technology, Al. Powstancow Warszawy 12, 35-959 Rzeszów, Poland
Bibliografia
- [1] A. Smalcerz, R. Przyłucki, K. Konopka, A. Fornalczyk, M. Ślezok, Multi-variant calculations of induction heating process, Archives of Materials Science and Engineering 58/2 (2012) 177-181.
- [2] P. Rokicki, Induction hardening of tool steel for heavily loaded aircraft engine components, Archives of Metallurgy and Materials 62/1 (2017) 315-320.
- [3] H. Kristoffersen, , P. Vomacka, Influence of process parameters for induction hardening on residual stresses, Materials and Design 22/8 (2001) 637-644.
- [4] L.A. Dobrzański, T. Tański, L. Čížek, J. Madejski, The influence of the heat treatment on the microstructure and properties of Mg-Al-Zn based alloys, Archives of Materials Science and Engineering 36/1 (2009) 48-54.
- [5] B. Karaca, M. Şimşir, H. Akkan, Effect of heat treatment on the tensile properties of cam shaft made of ductile cast iron , Journal of Achievements in Materials and Manufacturing Engineering 76/1 (2016) 15-20.
- [6] I.R. Pashby, S. Barnes, B.G. Bryden, Surface hardening of steel using a high power diode laser, Journal of Materials Processing Technology 139 (2003) 585-588.
- [7] K. Dychtoń, P. Rokicki, A. Nowotnik, M. Drajewicz, J. Sieniawski, Process temperature effect on surface layer of vacuum carburized low-alloy steel Sears, Solid State Phenomena 227 (2015) 425-428.
- [8] P. Rokicki, K. Dychton, Acetylene flow rate as a crucial parameter of vacuum carburizing process of modern tool steels, Archives of Metallurgy and Materials 61/4 (2016) 2009-2012.
- [9] L. Kučerová, M. Bystrianský, The effect of chemical composition on microstructure and properties of TRIP steels, Journal of Achievements in Materials and Manufacturing Engineering 77/1 (2016) 5-12.
- [10] M. Melander, Theoretical and experimental study of stationary and progressive induction hardening, Journal of Heat Treating 4/2 (1985) 145-166.
- [11] O. Bodart, A.-V. Boureau, R. Touzani, Numerical investigation of optimal control of induction heating processes, Applied Mathematical Modelling 25 (2001) 697-712.
- [12] K. Sadeghipour, J.A. Dopkin, K. Li, Computer aided finite element/experimental analysis of induction heating process of steel, Computers in Industry 28 (1996) 195-205.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9d6d48e4-548d-4b85-999e-ad0dd7f9d21d