Effect of tin addition on the microstructure and properties of ferritic stainless steel 被引量：5

Effect of tin addition on the microstructure and properties of ferritic stainless steel

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摘要 This article reports the effects of Sn on the inclusions as well as the mechanical properties and hot workability of ferritic stainless steel. Precipitation phases and inclusions in Sn-bearing ferritic stainless steel were observed, and the relationship between the workability and the microstructure of the steel was established. Energy-dispersive X-ray spectroscopic analysis of the steel reveals that an almost pure Sn phase forms and MnS-Sn compound inclusions appear in the steel with a higher Sn content. Little Sn segregation was observed in grain boundaries and in the areas around sulfide inclusions;however, the presence of Sn does not adversely affect the workability of the steel con-taining 0.4wt%Sn. When the Sn content is 0.1wt%-0.4wt%, Sn improves the tensile strength and the plastic strain ratio and also improves the plasticity with increasing temperature. A mechanism of improving the workability of ferritic stainless steel induced by Sn addition was discussed：the presence of Sn lowers the defect concentration in the ultra-pure ferritic lattice and the good distribution of tin in the lattice overcomes the problem of hot brittleness that occurs in low-carbon steel as a result of Sn segregation. This article reports the effects of Sn on the inclusions as well as the mechanical properties and hot workability of ferritic stainless steel. Precipitation phases and inclusions in Sn-bearing ferritic stainless steel were observed, and the relationship between the workability and the microstructure of the steel was established. Energy-dispersive X-ray spectroscopic analysis of the steel reveals that an almost pure Sn phase forms and MnS-Sn compound inclusions appear in the steel with a higher Sn content. Little Sn segregation was observed in grain boundaries and in the areas around sulfide inclusions;however, the presence of Sn does not adversely affect the workability of the steel con-taining 0.4wt%Sn. When the Sn content is 0.1wt%-0.4wt%, Sn improves the tensile strength and the plastic strain ratio and also improves the plasticity with increasing temperature. A mechanism of improving the workability of ferritic stainless steel induced by Sn addition was discussed：the presence of Sn lowers the defect concentration in the ultra-pure ferritic lattice and the good distribution of tin in the lattice overcomes the problem of hot brittleness that occurs in low-carbon steel as a result of Sn segregation.

作者 Yang Li Ji-peng Han Zhou-hua Jiang Pan He

机构地区 School of Materials and Metallurgy

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2015年第1期37-44,共8页 矿物冶金与材料学报（英文版）

基金 the National Key Technology R&D Program of China(No. 2012BAE04B02) the Fundamental Research Funds for Central Universities of China(No.N130402009) the Natural Science Foundation of Liaoning Province of China(No. 2014020032) the Program for Liaoning Innovative Research Team in University

关键词 ferritic stainless steel TIN inclusion modification microstructure mechanical properties hot brittleness ferritic stainless steel tin inclusion modification microstructure mechanical properties hot brittleness

分类号 TG142.71 [金属学及工艺—金属材料] TG146.21 [金属学及工艺—金属材料]

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International Journal of Minerals,Metallurgy and Materials

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