The Effects of Sulfide Inclusions on Mechanical Properties and Failures of Steel Components
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  • 作者:Joseph Maciejewski (1)

    1. Materials Testing     ; Applied Technical Services ; Inc. ; 1049 Triad Court ; Marietta ; GA ; 30062 ; USA
  • 关键词:Resulfurized ; Free machining ; Inclusions ; Manganese sulfide ; MnS ; Mechanical properties ; Aniosotropy
  • 刊名:Journal of Failure Analysis and Prevention
  • 出版年:2015
  • 出版时间:April 2015
  • 年:2015
  • 卷:15
  • 期:2
  • 页码:169-178
  • 全文大小:2,259 KB
  • 参考文献:1. Smith, WF (1993) Structure and Properties of Engineering Alloys. McGraw-Hill, New York
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    4. Bellot, J, Gantois, M (1978) The influence of 鈥榮ulfide-type鈥?inclusions on the mechanical properties of construction steels. Trans. Iron Steel Inst. Jpn. 18: pp. 546-553
    5. Wilson, AD (1984) Fatigue crack propagation in steels: the role of inclusions. Fracture: Interactions of Microstructure, Mechanisms and Mechanics. The Metallurgical Society of AIME, Warrendale, pp. 235-254
    6. / ASM Metals Handbook, vol. 1 (ASM International, 1990), pp. 149鈥?56
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    12. Spitzig, WA (1983) Effect of sulfides and sulfide morphology on anisotropy of tensile ductility and toughness of hot-rolled C-Mn steels. Metall. Trans. A 14: pp. 471-484 CrossRef
    13. R. Kiessling. Non-Metallic Inclusions in Steel, Part III, Iron and Steel Institute [London], 1968
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    15. Thornton, PA (1971) The influence of nonmetallic inclusions on the mechanical properties of Steel: a review. J. Mater. Sci. 6: pp. 347-356 CrossRef
    16. T. Gross, Micromechanisms of monotonic and cyclic crack growth, ASM Handbook, in / Fatigue and Fracture, vol 19 (ASM International, Materials Park, 1996), p. 49
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    20. Dhua, SK, Ray, A, Sen, SK, Prasad, MS, Mishra, KB, Jha, S (2000) Influence of nonmetallic inclusion characteristics on the mechanical properties of rail steel. J. Mater. Eng. Perform. 9: pp. 700-709 CrossRef
    21. Pearce, R, Mazhar, AA (1976) Fatigue behaviour of certain high-strength, low-alloy steel sheets. Met. Technol. 3: pp. 79-85 CrossRef
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    23. Cottrell, CLM (1970) Effect of impurities on fracture toughness of high-strength steel. Fracture Toughness of High-Strength Materials: Theory and Practice. ISI Publication, London, pp. 112-115
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    25. Hodge, JM, Frazier, RH, Boulger, FW (1959) The effects of sulfur on the notch toughness of heat-treated steels. Trans. Metall. Soc. AIME 215: pp. 745-753
  • 刊物类别:Chemistry and Materials Science
  • 刊物主题:Chemistry
    Materials Science
    Tribology, Corrosion and Coatings
    Characterization and Evaluation Materials
    Mechanics
    Structural Mechanics
    Quality Control, Reliability, Safety and Risk
  • 出版者:Springer Boston
  • ISSN:1864-1245
文摘
A literature review was performed to assess the effects of inclusions in carbon and alloy steels on their mechanical properties. Inclusions, including brittle oxides and more ductile manganese sulfides (MnS), affect fatigue endurance limit, fatigue crack propagation rate, fracture toughness, notch toughness, transverse tensile properties, and anisotropy of these properties with respect to the rolling direction. Significant property anisotropy has been documented, which needs to be taken into account in the design phases. Typical fracture morphologies and metallographic appearances of MnS-containing materials that the failure analyst will encounter are illustrated.
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