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Bending fatigue strength of steel with impurities range over 2 μm

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The parameters of high-grade steel are influenced by a combination of factors, including chemical composition and production technology. The impurity content is also a key determinant of the quality of high-grade steel. Non-metallic inclusions are one of the factors that influence the properties in particular fatigue strength of steel. The experimental material consisted of semi-finished products of medium-carbon structural steel. The production process involved three melting technologies: steel melting in a basic arc furnace with desulfurization or desulfurization and argon refining and in a oxygen converter and the next subjected to vacuum circulation degassing. This paper discusses the results of microstructural analyses, the changes in bending fatigue strength of steel hardened and tempered at different temperatures subjected to the size proportions and distances between the impurities of structural steel.
Rocznik
Strony
26--30
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
  • University of Warmia and Mazury in Olsztyn, The Faculty of Technical Sciences, St: Oczapowskiego 11, 10-957 Olsztyn, Poland, +48 89 5416191
Bibliografia
  • 1. Chichkarev e. A., Conditions For Nonmetallic In-clusion Formation In Steels Deoxidized With Alumi-num And Calcium. Metallurgist, 53, 728-734 (2009).
  • 2. Hang J.M., Li S.X., Yang Z.G., Li G.Y., Hui W.J., Hongand T., Debroy T., Nonisothermal growth and dissolution of inclusions in liquid steels. Metallurgical and Materials Transactions B 34B, 267-269 (2003).
  • 3. Kiedssling R., Non-metallic inclusions in steel. Lon-don, Met Soc.,155–65 (1978).
  • 4. Klimecka-Tatar D., Pawłowska G., Sozanska M. The Effect of Powder Particle Biencapsulation With Ni-P Layer on Local Corrosion of Bonded Nd-(Fe,Co)-B Magnetic Material. Archives of Metallurgy and Materials 60(1), 153-157 (2015).
  • 5. Lipiński T., The influence of the distribution of non-metallic inclusion on the fatigue strength coefficient of high purity steels. Journal of Achievements of Materials and Manufacturing Engineering 69/1, 18-25 (2015).
  • 6. Lipiński T., Analysis of impurity spaces as a percent-age volume of non-metallic inclusions. Production Engineering Archives 4, 10-12 (2015).
  • 7. Lipiński T., Wach A., Influence of Outside Furnace Treatment on Purity Medium Carbon Steel. In: 23rd International Conference on Metallurgy and Materials. Ostrava: TANGER, 738-743 (2014).
  • 8. Lipiński T., Wach A., The Effect of Fine Non-Metallic Inclusions on The Fatigue Strength of Structural Steel. Archives of Metallurgy and Materials 60(1), 153-157 (2015a).
  • 9. Lipiński T., Wach A., Dimensional Structure of Non-Metallic Inclusions in High-Grade Medium Carbon Steel Melted in an Electric Furnace and Subjected to Desulfurization. Solid State Phenomena 223, 46-53. (2015b).
  • 10. Murakami Y., Endo M., Effects of defects, inclusions and inhomogeneities on fatigue strength, Int J Fatigue 16(3), 163–82 (1994).
  • 11. Noda N., Matsuo T., Stress analysis of arbitrarily distributed elliptical inclusions under longitudinal shear loading, Int. Journal of Fracture 106, 81–93 (2000).
  • 12. Podorska D., Wypartowicz J., Thermodynamic analysis of elementary processes in molten oxide slag reduction, Archives of Metallurgy and Materials, 53(2), 595–600 (2008).
  • 13. Selejdak J., Ulewicz R., Ingaldi M., The evaluation of the use of a device for producing metal elements applied in civil engineering. In METAL 2013: 23rd International Conference on Metallurgy and Materials. Ostrava: TANGER, 1882-1888 (2014).
  • 14. Ulewicz R., Quality control system in production of the castings from spheroid cast iron. Mietalurgija 42(1), 61-63. (2003).
  • 15. Weng Y.Q., Influence of inclusion size on fatigue behavior of high strength steel in the gigacycle fatigue regime, International Journal of Fatigue 29 (2007).
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-59e09b3c-ad6f-425c-8dcf-03e8e0d12be9
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