Microstructural evolution and mechanical properties of aging high nitrogen austenitic stainless steels 被引量：2

Microstructural evolution and mechanical properties of aging high nitrogen austenitic stainless steels

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摘要 The microstructural evolution of 18Crl 8Mn2Mo0.77N high nitrogen austenitic stainless steel in aging treatment was investigated by optical microscopy （OM）, scanning electron microscopy （SEM）, and transmission electron microscopy （TEM）. The results show that hexagonal intergranular and cellular Cr2N with a=0.478 nm and c=0.444 nm and body-centered cubic intermetaUic X phase with a=0.892 nm precipitate gradually in the isothermal aging treatment. The matrix nitrogen depletion due to the intergranular Cr2N precipitation induces the decay of Vickers hardness, and the formation of cellular Cr2N and X phase causes the increase in the values. The impact toughness presents a monotonic decrease and SEM morphologies show the leading brittle intergranular fracture. The tensile strength and elongation deteriorate obviously except for the sample aged for 1 h in yield strength. Stress concentration occurs when the matrix dislocations pile up at the pre- cipitation and matrix interfaces, and the interracial dislocations may become precursors to the misfit dislocations, which can form small cleavage steps and accelerate the formation of cracks. The microstructural evolution of 18Crl 8Mn2Mo0.77N high nitrogen austenitic stainless steel in aging treatment was investigated by optical microscopy （OM）, scanning electron microscopy （SEM）, and transmission electron microscopy （TEM）. The results show that hexagonal intergranular and cellular Cr2N with a=0.478 nm and c=0.444 nm and body-centered cubic intermetaUic X phase with a=0.892 nm precipitate gradually in the isothermal aging treatment. The matrix nitrogen depletion due to the intergranular Cr2N precipitation induces the decay of Vickers hardness, and the formation of cellular Cr2N and X phase causes the increase in the values. The impact toughness presents a monotonic decrease and SEM morphologies show the leading brittle intergranular fracture. The tensile strength and elongation deteriorate obviously except for the sample aged for 1 h in yield strength. Stress concentration occurs when the matrix dislocations pile up at the pre- cipitation and matrix interfaces, and the interracial dislocations may become precursors to the misfit dislocations, which can form small cleavage steps and accelerate the formation of cracks.

作者 Zhou-hua Jiang Zu-rui Zhang Hua-bing Li Zhen Li Qi-feng Ma

机构地区 School of Materials and Metallurgy

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第6期729-736,共8页 矿物冶金与材料学报（英文版）

基金 supported by the National Natural Science Foundation of China (No.50534010)

关键词 microstructural evolution AGING mechanical properties austenitic stainless steel secondary phase microstructural evolution aging mechanical properties austenitic stainless steel secondary phase

分类号 TG142.25 [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

2010年第6期

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