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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-ab75bc93-cf8b-4ca4-9f6d-6bed662184fe

Czasopismo

Przegląd Elektrotechniczny

Tytuł artykułu

An attempt of characterization of stress state in high carbon C68D steel wire rod by Barkhausen noise method

Autorzy Garstka, T.  Dyja, H. 
Treść / Zawartość http://pe.org.pl/
Warianty tytułu
PL Próba oceny stanu naprężeń w walcówce zestali wysokowęglowej C68D za pomocą metody Barkhausena
Języki publikacji EN
Abstrakty
EN The paper presents preliminary tests of high carbon steel wire rods by the non-destructive Barkhausen method. Correlation between applied external stress to the wire rod and current sweep characteristics were observed. Some geometrical parameters of the shape of these characteristics corresponded to mechanical stress state were assigned. Obtained result can be used for more reliable estimation of residual stress state and quick comparison of residual stress level in wire rod after different production variants.
PL W artykule zaprezentowano wstępne badania walcówki ze stali wysokowęglowej za pomocą nieniszczącej metody Barkhausena. Zaobserwowano korelację pomiędzy zadawanymi w walcówce naprężeniami a charakterystykami typu sweep. Pewne parametry geometryczne kształtu tych charakterystyk, korespondujące ze stanem naprężeń mechanicznych, zostały wyznaczone . Uzyskane rezultaty mogą być pomocne dla bardziej wiarygodnej oceny stanu naprężeń własnych i szybkiego porównywania ich poziomów w walcówce po różnych wariantach produkcji.
Słowa kluczowe
PL walcówka   badania nieniszczące   szum Barkhausena  
EN wire rod   non-destructive testing   Barkhausen noise  
Wydawca Wydawnictwo SIGMA-NOT
Czasopismo Przegląd Elektrotechniczny
Rocznik 2015
Tom R. 91, nr 4
Strony 20--23
Opis fizyczny Bibliogr. 20 poz., il., schem., tab., wykr.
Twórcy
autor Garstka, T.
  • Częstochowa University of Technology, Faculty of Production Engineering and Materials Technology, Al. Armii Krajowej 19, 42-200 Częstochowa, tomasz.garstka@wip.pcz.pl
autor Dyja, H.
  • Częstochowa University of Technology, Faculty of Production Engineering and Materials Technology, Al. Armii Krajowej 19, 42200 Częstochowa, dyja@wip.pcz.pl
Bibliografia
[1] Knapiński M, Koczurkiewicz B., Dyja H., Kawałek A., Laber K., The analysis of influence production conditions on properties C70D 5,5 mm diameter wire rod, Proceedings of Conf. METAL 2014, (2014), Brno, Czech Republic
[2] Yahyaoui, H.; Sidhom, H.; Braham, C.; Baczmanski, A.: Effect of interlamellar spacing on the elastoplastic behavior of C70 pearlitic steel: Experimental results and self-consistent modeling, Materials and Design, 55 (2014), 888-897
[3] Gauthier J., Krause T., Atherton D., Measurement of residual stress in steel using magnetic Barkhausen noise method, NDTiE International, 31 (1998), No 1, 23-31
[4] Garstka T., Barkhausen noise stress characteristic of P265GH boiler steel. Acta Physica Polonica, 121 (2012), No.4, 954-958
[5] Withers P., Bhadeshia H., Residual stress. Part 1. Measurement techniques, Materials Science and Technology, 17 (2011),355-365
[6] Augustyniak B., Magnetomechanical effects and their applications at nondestructive evaluation of materials (in Polish), Gdansk University of Technology Publishing, (2003)
[7] Suliga M., Chwastek K., Pawlik M., Hysteresis loop as the indicator of residual stress in drawn wire, Nondestructive Testing and Evaluation, 2014
[8] Gauthier J., Krause T., Atherton D., Measurement of residual stress in steel using magnetic Barkhausen noise method, NDTiE International, 31 (1998), No 1, 23-31
[9] Garstka T., Jagieła K., Criterion of choice of the magnetization current intensity in Barkhausen method of residual stress measurement (in Polish), Proceedings of Conference New Technologies and Achievements in Metallurgy and Materials Engineering, Czestochowa University of Technology Publishing, Częstochowa, (2008), 98-101
[10] Silva S., Mansur T, Palma E., Determining residua stress in ferromagnetic materials by Barkhausen noise method, Proceedings of 15th WCNDT, Roma, 2000
[11] Lindgren M., Lepisto T., Application of Barkhausen noise to biaxial residual stress measurements in welded steel tubes, IoM Comunications Ltd., Published by Maney for the Institute of Materials, Minerals and Mining, 2002
[12] Tremea A, Nardoni G., Vengrinovich V., Testing Barkhausen noise analysis to measure residual stress in mill roll alloys, Proceedings of 4th ICBM Conf., Brescia, 2003
[13]Garstka T., Microstructure State and Heat Treatment Influence on Barkhausen Noise Parameters and Residual Stress Measurements, Solid State Phenomena, 165 (2010), 50-55
[14] Garstka T.,Dyja H., Application of Barkhausen’s method in analyzing the stress state in the 500/410x45 mm hot rolled ring, Humanities and Science University Journal, 5 (2013), 63-71
[15] S. Santa-ahoa, M. Hakanenb, A. Sorsac, M. Vippolaa, K. Leiviskäc, T. Lepistöa, Case Depth Verification of Hardened Samples with Barkhausen Noise Sweeps, AIP Conference Proceedings 1581, 1307 (2014); doi: 10.1063/1.4864972
[16] Garstka T., The complex system for residual stress determination based on Barkhausen noise measurement, Proceedings of 5th ICBM., 2005, Petten, The Netherlands,.219-228
[17]Stefanita C., Atherton D., Clapham L., Plastic versus elastic deformation effects on magnetic Barkhausen noise in steel, Acta materialia, 48 (2000), 3545-3551
[18] Saqueto., Chicois J, Vincent A., Barkhausen noise from plain carbon steel: analysis of the influence of the microstructure, Materials Science and Eng., 269, (1999), 73-82
[19]Kleber X., Hug A., Merlin J., Distribution of the residua stresses in ferrite-martensite steels by means of the Barkhausen noise measurements, Proceedings of 5th ICBM, 2005, Petten, The Netherlands, 161-171
[20]C. C. H Lo, S. J. Lee, L. Li, L. C. Kerdus, D. C. Jiles , Modeling stress effects on magnetic hysteresis and Barkhausen emission using a hysteretic-stochastic model, IEEE Transactions on Magnetics, 38 (2002), No. 5, 2418-2420
Kolekcja BazTech
Identyfikator YADDA bwmeta1.element.baztech-ab75bc93-cf8b-4ca4-9f6d-6bed662184fe
Identyfikatory
DOI 10.15199/48.2015.04.05