Effect of the precipitation hardening on regularities of plastic deformation and fracture mode of V-alloyed high nitrogen austenitic steel

A. Mikhno, M. Panchenko, G. Maier, V. Moskvina, E. Melnikov, S. Astafurov, E. Astafurova
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Abstract

: Nitrogen alloying of austenitic steels increases their corrosion resistance and improves mechanical properties. During heat treatment, high-nitrogen austenitic steels tend to the precipitation hardening and the increase of strength characteristics. In the current paper, the authors studied the effect of the duration of age-hardening at the temperatures of 700 °С and 800 °С on the structure, phase composition, plastic flow behavior, and fracture mechanisms of V -alloyed high nitrogen chrome-manganese austenitic Fe-19Cr-22Mn-1.5V-0.3C-0.86N (mass %) steel. The study revealed that after wa-ter-quenching at 1200 °С, the specimens possess the high strength properties, ductility and contain large (300– 500 nm) (V,Cr)(N,C) particles. Aging at temperatures of 700 °С and 800 °С facilitates complex reactions of austenite discontinuous decomposition with the Cr 2 N-plate formation in grains and continuous decomposition with the formation of vanadium nitride-based particles in austenite. During the long-term aging (50 h at 700 °C and 10 h at 800 °C), the intermetallic σ -phase appears in specimens. At age-hardening, the observed phase transformations cause the changes in macro- and mi-cro-mechanism of fracture in the specimens of steel under the study. In the initial state, the specimens show mainly the ductile transgranular fracture. After age-hardening, the fracture mechanism changes into the mixed mechanism with the elements of brittle intergranular and ductile transgranular fractures. When increasing the duration of aging and imple-mentation of complex reactions of decomposition of solid solution, the specimens are fractured by the quasi-cleavage mechanism. The specimens aged at temperatures of 700 °С and 800 °С have quite similar precipitation hardening mech a-nisms, though the increase in aging temperature leads to the rising of the decomposition rate of solid solution. The sequence of transformations described above and the corresponding sequence of changes in the mechanisms of steel fracture are implemented faster when increasing the aging temperature.
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沉淀硬化对v合金高氮奥氏体钢塑性变形规律及断裂方式的影响
奥氏体钢的氮合金化提高了它们的耐腐蚀性并改善了机械性能。高氮奥氏体钢在热处理过程中表现出析出硬化和强度增加的特点。本文研究了700°С和800°С时效硬化时间对V合金高氮铬锰奥氏体钢Fe-19Cr-22Mn-1.5V-0.3C-0.86N(质量%)钢的组织、相组成、塑性流动行为和断裂机制的影响。研究表明,在1200°С水淬后,试样具有较高的强度和延展性,并含有较大的(300 ~ 500 nm) (V,Cr)(N,C)颗粒。700°С和800°С时效有利于奥氏体不连续分解(晶粒中形成Cr 2 n -板)和连续分解(奥氏体中形成氮化钒基颗粒)的复杂反应。在700℃时效50 h和800℃时效10 h的过程中,试样中出现了金属间化合物σ -相。在时效硬化过程中,观察到的相变引起了钢试样宏观和微观断裂机制的变化。在初始状态下,试样主要表现为韧性穿晶断裂。时效硬化后,断裂机制转变为脆性沿晶断裂和韧性穿晶断裂混合机制。随着时效时间的延长和固溶体分解的复杂反应的发生,试样发生准解理断裂。在700°С和800°С时效时,试样的析出硬化机制非常相似,但时效温度的升高导致固溶体分解速率的升高。随着时效温度的升高,上述转变的顺序和相应的钢断裂机制变化的顺序发生得更快。
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THE RESEARCH OF AGING AND MECHANICAL PROPERTIES OF NANOSTRUCTURAL TITANIUM The research of the processes of formation of porous non-ferrous metals Special aspects of strain localization during thermal power processing Regulation of powder particles shape and size at plasma spraying The enhancement of cutting capacity of a grinding wheel when processing ductile steel blank parts by ultrasonic activation
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