Influence of Nonmetallic Inclusions on the Failure of Cast Stainless Steels

被引:0
作者
Fomicheva N.B. [1 ]
Markova E.V. [1 ]
机构
[1] Tula State University, Tula
来源
Steel in Translation | 2019年 / 49卷 / 03期
关键词
cast structure; fractal analysis; nonmetallic inclusions; stainless steel; steel failure;
D O I
10.3103/S0967091219030033
中图分类号
学科分类号
摘要
Abstract: The structure of high-strength 09Kh16N4BL and 14Kh17N2L stainless steels produced by casting on fusible models is studied. The influence of the steel composition on the content of nonmetallic inclusions in the cast steel is of considerable interest. The morphology of the nonmetallic inclusions is studied, and they are identified. Fractographic analysis shows that the nonmetallic inclusions affect the failure of the stainless steels. Two methods are used for quantitative assessment of that influence. Besides the classical methods, multifractal parameterization of the structure is employed to study the structure of the stainless steels. On that basis, correlations are established between the main multifractal parameters and the mechanical properties of the steel. © 2019, Allerton Press, Inc.
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页码:207 / 211
页数:4
相关论文
共 19 条
[1]  
Fel'dgandler E.G., Savkina L.Y., Effect of alloying on hardening of martensitic stainless steels of the Fe–Cr–Ni and Fe–Cr–Co systems, Met. Sci. Heat Treat, 17, pp. 758-762, (1975)
[2]  
Voronenko V.I., High-strength casted corrosion-resistant steels of austenitic-ferritic class, Liteinoe Proizvod, 6, pp. 8-13, (1993)
[3]  
Tokovoi O.K., Shaburov D.V., Nonmetallic phase in austenitic stainless steel, Steel Transl, 44, pp. 875-878, (2014)
[4]  
Voznesenskaya N.M., Kablov E.N., Petrakov A.F., Shal'kevich A.B., High-strength corrosion-resistant steels of the austenitic-martensitic class, Met. Sci. Heat Treat, 44, pp. 300-303, (2002)
[5]  
Krylov S.A., Shcherbakov A.I., Makarov A.A., Tonysheva O.A., Reducing the content of non-metallic inclusions in corrosion-resistant nitrogen-containing steel, Tr. Vseross. Inst. Aviats. Mater., 5, (2017)
[6]  
Markova E.V., Effect of nonmetallic inclusions on the destruction of corrosion-resistant steel 09Kh16N4BL, Proc. XIII Int. Sci.-Tech. Ural School-Seminar of Young Metal Scientists, pp. 3-4, (2012)
[7]  
Grinberg E.M., Markova E.V., Fomicheva N.B., The effect of silicon and manganese on the formation of the structure and properties of corrosion-resistant steel, Proc. V Int. Conf. “Deformation and Fracture of Materials and Nanomaterials,”, pp. 305-306, (2013)
[8]  
Goncharenko V.I., Adamchuk S.I., Tsivirko E.I., Comparative microhardness of steel and nonmetallic inclusions at high temperatures, Thermal Microscopy of Metals and Alloys, (1974)
[9]  
Yavoiskii V.I., Kryanovskii Y.V., (Steel Metallurgy), (1983)
[10]  
Ezhov A.A., Maresev M.I., Izlomy konstruktsionnykh stalei: spravochnoe izdanie (Fractures of Construction Steels: Handbook), (1987)
12