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Effect of electrolytic plating and shot-peening on fatigue properties in the ultra-high cycle regime

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Języki publikacji
EN
Abstrakty
EN
This work presents information about the influence of shot-peening, nickel and chromium galvanic metallization on the fatigue properties of S235JRG2 steel in the ultra-high-cycle region of loading […] obtained at high-frequency fatigue testing […]. Shot-peening is a technological process during which the surface layer is exposed to plastic deformation which is caused by high speed shooting using small metallic or ceramic particles. Galvanic metallization by nickel deposition is one of the most thorough processes of surface finish and has many applications, mostly decorative-protective and technical ones. Technical coatings are used in order to modify the proprieties of the surface that is being covered for protection against corrosion but also in order to increase the hardness and resistance to wear. The coatings produced by galvanic metallization increase corrosion resistance but in doing so, they introduce tensile stresses into the surface layer which act negatively on fatigue proprieties. Nickel is employed for the production of final coatings or it can be used for the production of inter-layers in chrome galvanic metallization.
Rocznik
Strony
563--570
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr.
Twórcy
autor
autor
  • Częstochowa University of Technology 42-200 Czestochowa, al. Krajowej 19B, POLAND, ulewicz@zim.pcz.pl
Bibliografia
  • Bathias C. and Paris P.C. (2005): Gigacycle Fatigue in Mechanical Practice. – New York: M. Dekker.
  • Bidulský R., Actis Grande M., Kabátová M. and Bidulská J. (2009): Journal of materials science and technology. – Vol.25, No.5, pp.607-610.
  • Bokůvka O., Nicoletto G., Kunz L., Palček P. and Chalupová M. (2002): Low and High Frequency Fatigue Testing. – EDIS, ŽU Žilina.
  • Bokůvka O. and Novy F. (2004): Gigacycle fatigue and gigacycle regimes. – Summer School Materials Fatigue`2004, Zuberec.
  • Bokůvka O., Nový F., Kunz, L. and Lukáš P. (2006): Fatigue life of materials at very high number of cycles of loading. – In: Materials and Construction Life 2006, ÚFM Brno, pp.15- 21.
  • Burakowski T. and Wierzchoń T. (1995): Surface Engineering of Metals. – WNT Warszawa.
  • Hadzima B. and Suchý P. (2007): Materials Engineering, Vol.14, No.4, pp.31-34.
  • Kunz J., Nedbal I. and Siegl J. (1991): In: Proc. Fractography 91, Košice, ÚFM SAV, pp.361-367.
  • Kunz J., Siegl J. and Nedbal I. (2007): Materials Engineering, Vol.14, No.3, pp.44-47.
  • Linhart V. (1992): Influence of technological changes on the fatigue properties. – Summer School Materials Fatigue `92, Žilina.
  • Mihaliková M., Kovalová K. and Micheľ J. (2004): Materials Engineering, Vol.11, No.3, pp.13-16.
  • Nicoletto G., Bokůvka O., Kopas P., Collini L. and Bujnová P. (2005): Transaction of FAMENA. – Vol.29, No.1, Croatia, Zagreb, pp.9-17.
  • Nový F., Bokůvka O., Chalupová M. and Motýľová E. (2008): Materials Engineering. – Vol.15, No.2a, pp.79-82.
  • Puškár A. (1982): The Use of High – Intensity Ultrasonic. – Elsevier, Amsterdam – Oxford – New York.
  • Salama K. and Lamerand R.K. (1982): Ultrasonic Fatigue. – In. Conf. Proc., The Met. Soc. of AIME, New York.
  • Skočovský P., Bokůvka O., Konečná R. and Tillová E. (2001): Materials science for mechanical engineering. – EDIS University of Žilina, Žilina.
  • Věchet S., Kohout J. and Bokůvka O. (2001): Fatigue properties of ductile cast iron. – EDIS University of Žilina, Žilina.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ5-0004-0035
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