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Behaviour of nitrided layers subjected to influence of hydrogen

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: of this paper is evaluation of behaviour of plasma nitrided layers subjected to influence of internal and external hydrogen. Properties of nitrided layers like: hydrogen permeation and trapping, fracture mode, and plasticity were examined. Design/methodology/approach: Structural low-alloy steel was nitrided at glow discharge in the gas mixture of various N2, H2, and Ar content. Samples with nitrided layers were subjected to cathodic hydrogen charging in acid solution simulating the aged engine oil hydrogenating environment. The effect of the nitrided layers on the hydrogen transport and on the irreversible trapping was evaluated by the measurements of the hydrogen permeation rate and by the vacuum extraction, respectively. Surfaces with modified layers were examined with the use of a scanning electron microscope (SEM) before and after hydrogen permeation tests. Slow strain rate test (SSRT) on samples with and without nitrided layers was carried out in hydrogen generating environment. After SSRT fracture mode and plasticity of nitrided layers were examined with SEM. Findings: In the presence of the not defected compact nitride layer, no hydrogen permeation through the steel has been stated under the experimental conditions. Influence of hydrogen content in working atmosphere, i.e. internal hydrogen, was found. Absorbed hydrogen, i.e. external hydrogen, was accumulated within this layer. Research limitations/implications: There is no possibility to perform direct observations of exact mechanism of hydrogen-assisted cracking so far. Further research should be taken to reveal the exact mechanism of increased plasticity of nitrided layer with absorbed hydrogen. Practical implications: Plasma nitrided layers are effective barriers to hydrogen entry into structural steel utilised in aggressive environments, which is especially important in the case of possible hydrogen charging of exploited steel. Originality/value: Using the atmosphere of the higher nitrogen to hydrogen ratio at plasma assisted nitriding provides the formation of thin compact nitride zone, highly protective against corrosion and hydrogen degradation. Evidences of a likely increased plasticity of nitrided layers with absorbed hydrogen was observed.
Rocznik
Strony
30--41
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
autor
  • Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland, janusz.cwiek@polsl.pl
Bibliografia
  • [1] P. Kula, The “self-lubrication” by hydrogen during dry friction of hardened surface layers, Wear 201 (1996) 155-162.
  • [2] N. Eliaz, A. Shachar, B. Tal, D. Eliezer, Characteristics of hydrogen embrittlement, stress corrosion cracking and tempered martensite embrittlement in high-strength steels, Engineering Failure Analysis 9/2 (2002) 167-184.
  • [3] H.K. Birnbaum, I.M. Robertson, P. Sofronis, D. Teter, Mechanisms of hydrogen related fracture. A review, Proceedings of the 2nd International Conference Corrosion Deformation Interaction, The Institute of Materials, London, 1997, 172-195.
  • [4] N. Eliaz, D. Eliezer, D.L. Olson, Hydrogen-assisted processing of materials, Materials Science and Engineering A289 (2000) 41-53.
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  • [6] T. Zakroczymski, N. Lukomski, J. Flis, The effect of plasma nitriding-base treatments on the absorption of hydrogen by iron, Corrosion Science 37/5 (1995) 811-822.
  • [7] M. Brass, J. Chene, J.C. Pivin, Influence of nitrogen ion implantation on hydrogen permeation in an extra mild steel, Journal of Materials Science 24 (1989) 1693-1699.
  • [8] F.D. Fassini, M.A. Zampronio, P.E.V. de Miranda, Design of ion-implanted coatings to impede hydrogen contamination of steel, Corrosion Science 35/1-4 (1993) 549-556.
  • [9] T. Zakroczymski, N. Lukomski, J. Flis, Entry and transport of hydrogen in ion nitrided iron, Journal of Electrochemical Society 140/12 (1993) 3578-3583.
  • [10] H.A. Wriedt, N.A. Gokcen, R.H. Nafziger, Bulletin of Alloy Phase Diagrams, Vol. 8 (1987) 355.
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  • [13] P.F. Timmins, Solutions to hydrogen attack in steels, AMS Int., 1997.
  • [14] H.K. Birnbaum, Mechanisms of hydrogen-related fracture of metals. Proceedings of the International Conference „Environment-Induced Cracking of Metals”, National Association of Corrosion Engineers, Houston, Texas, USA, 1988, 21-29.
  • [15] J. Ćwiek, Hydrogen degradation of high strength weldable steels, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 223-226.
  • [16] J. Ćwiek, A. Zieliński, Mechanism of hydrogen enhanced-cracking of high-strength steel welded joints, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 207-210.
  • [17] B. Świeczko-Żurek, S. Sobieszczyk, J. Ćwiek, A. Zieliński, Evaluation of susceptibility of high-strength steels to hydrogen delayed cracking, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 243-246.
  • [18] A. Zieliński, J. Ćwiek, M. Błaszkiewicz, Effect of plasma nitrided layers on low-alloy steel on its hydrogen degradation, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 213-216.
  • [19] S. Sobieszczyk, E. Łunarska, J. Ćwiek, A. Zieliński, K. Nikiforow, Hydrogen charging of plasma nitrided steel in acid solution, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 205-208.
  • [20] J. Ćwiek, Plasma nitriding as a prevention method against hydrogen degradation of steel, Journal of Achievements in Materials and Manufacturing Engineering 36/1 (2009) 25-32.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL8-0040-0004
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