Новый метод измельчения грубых эвтектических карбидов в сверхвысокоуглеродистой стали
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Sherby O. D., Walser B., Young C. M. Superplastic ultra-high carbon steels // Scr. Metall. 1975. V. 9. P. 569 - 573.
Sunada H., Wadsworth J., Lin J. Mechanical properties and microstructure of heat-treated ultrahigh carbon steels // Mater. Sci. Eng. 1979. V. 38. P. 35.
Lesuer D. R., Syn C. K., Goldberg A. The case for ultrahigh- carbon steels as structural materials // JOM. 1993. V. 45. P. 40 - 46.
Syn C. K., Lesuer D. R., Sherby O. D. Influence of microstructure on tensile properties of spheroidized ultrahigh-carbon // Mater. Sci. Eng. A. 1994. V. 25. P. 1481 - 1493.
Zhang J. G., Lin Y. J., Hillert M. Microstructure and mechanical properties of spray formed ultrahigh-carbon steels // Mater. Sci. Eng. A. 2004. V. 383. P. 45 - 49.
Szczepanik S., Nikiel P., Mitchell S. C. Microstructure evolution in warm forged sintered ultrahigh carbon steel // Arch. Civ. Mech. Eng. 2015. V. 15. P. 301 - 307.
Oyama T., Sherby O. D., Wadsworth J. Application of the divorced eutectoid transformation to the development of fine-grained, spheroidized structures in ultrahigh carbon steels // Scr. Metall. 1984. V. 18. P. 799 - 804.
Chen Y., Shi S., Sun J. Influence of spheroidization process on microstructure and mechanical properties of ultrahigh carbon steel Fe - 1.3C - 1.5Cr - 1.5Al // Mater. Sci. Eng. 2015.
Hull M. Spray Forming Poised to Enter Mainstream // Powder Metall. 1977. V. 40. P. 23 - 26.
Kim W. J., Taleff E. M., Sherby O. D. Superplasticity of fine- grained Fe - C alloys prepared by ingot-and powder-processing routes // J. Mater. Sci. 1988. V. 33. P. 4977 - 4985.
Brooks R. Q., Moore C., Leatham A. G. The Osprey process // Powder Metall. 1977. V. 2. P. 100 - 102.
MTaleff E., Syn C. K., Lesuer D. R. Pearlite in ultrahigh carbon steels: Heat treatments and mechanical properties // Metall. Mater. Trans. A. 1995. V. 27. P. 111.
Wang J., Shi H. S., Zhang J. G. High-strain-rate superplasticity of big grains in spray forming ultrahigh carbon steel contain 1.6 wt.% Al // Adv. Mater. Res. 2012. V. 535 - 537. P. 639 - 642.
Pan F. Z., Yang H., Jiao J. L. Effect of K/Na-RE multiple modification on structure and mechanical property of high-speed steel used for roll collar // Foundry. 2006. V. 55. P. 164.
Liu K. P., Dun X. L., Lai J. P. Effects of modification on microstructure and properties of ultrahigh carbon (1.9 wt.% C) steel // Mater. Sci. Eng. A. 2011. V. 528. P. 8263 - 8268.
Liu S. G., Dong S. S., Yang F. Application of quenching-partitioning-tempering process and modification to a newly designed ultrahigh carbon steel // Mater. Des. 2014. V. 56. P. 37 - 43.
Wang J. M., Zhu H., Yang S. Effects of rare earth modification on structures and properties of low-alloy cast steel // Foundry. 2007. V. 2. P. 57 - 64.
Guan Q. F., Fang J. R., Jiang Q. C. Effect of rare earth composite modification on microstructure and properties of a new cast hot-work die steel // J. Rare Earths. 2003. V. 21. P. 368 - 371.
Lei L., Bin H., Sheng-gen L. Effect of Mo on mechanical properties of modified ultrahigh carbon steels after heat-treatment // J. Cent. South. Univ. 2014. V. 21. P. 1683 - 1688.
Dadkhah H. Microstructure of cast ultrahigh carbon steel (UHCS) modified via Fe - Si - Mg - Ca - RE // Trans. Inst. Min. Met. 2014. V. 67. P. 1001 - 1004.
Liu H., Kong X. H., Sun Y. H. Dynamic continuous cooling transformation of supercooled austenite in spring steel 55SiCrA // Trans. Mate. Heat Treat. 2011. V. 32. P. 73 - 77.
Liu Q. S., Zhao M. J., Zhang H. X. The novel technique of grain refinement in the aluminum-free ultrahigh carbon steel // Steel Res. Int. 2016. V. 87. P. 1444 - 1449.
Hong C. X., Wang S. Q., Hong W. U. Granulation of eutectic carbide through heat-treatment in modified ledeburite steel // J. Jilin Univ. Technol. 2002. V. 32. P. 42 - 46.
DOI: https://doi.org/10.30906/mitom.2019.9.18-21
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