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Fatigue properties of the HSLA steel in high and ultra-high cycle region

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This work presents a study of the fatigue properties in the example of Swedish steel Hardox 400. Fatigue tests were carried out in the area of high and ultra-high cycle region. From the practical point of view the durability of some components in the automotive industry and similar technical applications such as special semitrailers ranges between 108 and 1010 cycles. But, only a few experimental results beyond 107 cycles are available now. The main objective of this research was to provide independent results to the company which uses Hardox steel in the construction of semitrailers. Selected mechanical and fatigue tests were carried out with the aim to study fatigue properties of Hardox steel. Based on the obtained experimental results the fatigue properties of this still not well recognized type of steel are discussed.
Rocznik
Strony
18--21
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
  • Institiute of Production Engineering, Czestochowa University of Technology, ul. Armii Krajowej 19B, 42-201 Czestochowa, Poland
autor
  • Department of Materials Engineering, Faculty of Mechanical Engineering, University of Žilina, Univerzitná 1, 010 26 Žilina, Slovak Republik
autor
  • Institiute of Production Engineering, Czestochowa University of Technology, ul. Armii Krajowej 19B, 42-201 Czestochowa, Poland
autor
  • WIELTON S.A., ul. Baranowskiego 10A, 98-300 Wieluń, Poland
Bibliografia
  • 1. Asami K., Hironaga M. 1994. Effect of Shot-Peening on Suppression of Scatter of Fatigue Strength in Ti-6Al-4V Alloy. “Journal of the Society of Materials Science” Vol. 43 No. 484. p.12-17.
  • 2. Bathias C. 2001. Designing Components Against Gigacycle Fatigue, in. Conf. Proc Fatigue in the Very High Cycle Regime, Vienna 2001, p. 97-109.
  • 3. BathiaS C., Bonis J. 1998. Effect on inclusions on gigacycle fatigue of a nickel base alloy. “Fracture from Defects Vol.1.” – proceedings of the 12th Bienniel Conference on Fracture – ECF 12 – held in Sheffield, United Kingdom. p.321-326.
  • 4. Bokuvka O., Nicoletto G., Kunz L., Palcek P., Chalupova M. 2002. Low & Hight Frequency Fatigue testing. University of Zilina, Zilina.
  • 5. Bokůvka O., Nový F., Chalupová M., Nicoletto G. 2008. Gigacycle fatigue at high-frequency loading. “Diagnostyka” 4(48). p. 53-56.
  • 6. Dorazil E. 1991. High Strength Austempered Ductile Cast Iron, Academia and Horwood, Praha and Chichester.
  • 7. Hanus P., Konečný M. 2014. Influence of the welding process on martensitic high strength steel. Production Engineering Archives. Vol 3. No. 2. pp. 31-34.
  • 8. Koster M., Wagner G., Eifler D. 2010. Cyclic deformation behavior of a medium carbon steel in VHCF regime. “Procedia Engineering” Vol. 2. No. 1. p. 2189-2197.
  • 9. Masuda S., Nishijima S., Tanaka Y. 1986. Relationship between fatigue strength and hardness for high strength steels, “Trans. JSME” 52A. p. 847-852.
  • 10. Mazur M., Ulewicz R., Borkowski S., Novy F. 2012. Properties of Steel Used in the Production of Semi-Trailers Car. W:Semdok 2012. 17th International of PhD. Students' Seminar. 25 - 27 January, 2012. Zilina - Terchova, Slovakia. Zilina 2012.
  • 11. Naito T., Ueda H., Kikuchi M. 1984. Metal Trans., Vol.15A, pp. 1431-1436.
  • 12. Nishijima K., Kanazawa K. 1999. Stepwise S-N curve and fish-eye failure in gigacycle fatigue. “Fatigue & Fracture of Engineering Materials & Structures” Vol. 22, No. 7. p. 601–607.
  • 13. Nishijima S., Kanazawa K. 1999. Step-wise-S-N curve and fish-eye failure in gigacycle fatigue, “Fatigue and Fracture of Engineering Materials and Structures” 22, p. 601-607.
  • 14. Puškár A. 1997. High frequency fatigue of materials, EDIS University of Zilina, Zilina.
  • 15. Radek N. 2012. Selected Problems of Mechanical Engineering and Maintenance. Wydawnictwo Politechniki Świętokrzyskiej, Kielce.
  • 16. Sakai T., Takeda M., Shiozava K., Ochi Y., Nakajima M., Nakamura T., Oguma N. 1999. Experimental evidence of duplex S–N characteristics in wide life region for high strength steels. in: Proceedings of the Seventh International Fatigue Congress, Higher Education Press/EMAS, Beijing, China, 1999, p. 573–578.
  • 17. Salama K., Lamerand R. K. 1982. Ultrasonic Fatigue, in. Conference Proceedings Transactions of the Metallurgical Society of AIME, New York, 1982, p. 109-118.
  • 18. Tillová E., Chalupová M. 2009. Fatigue failure of AlSi9Cu3 cast alloy. In: Fractography 2009: proceedings of the conference with international participation held in the hotel Academia, the High Tatras, Slovakia. Institute of Materials Research of the Slovak Academy of Sciences. Košice. p. 193-196.
  • 19. Trško L., Miková K., Bokůvka O. 2011. Fatigue resistance of on shore microalloyed steels for gas transport. In: Toyotarity. Heijunka. Borkowski S. Ulewicz R. (red.). Yurii V. Makovetsky, Dnipropetrovsk. p. 171-178.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c0e97e87-6931-4d65-9fdd-a5296129e394
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