Влияние длительного теплового старения в составе теплообменного оборудования реакторной установки на быстрых нейтронах на структуру и свойства аустенитной хромоникелевой стали

A. Kudryavtsev, K. A. Okhapkin
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Abstract

The influence of long-term operation at 515 °C on structure and properties of 09Cr18Ni9 steel was investigated. Structure and phase composition were obtained using optical and scanning electron microscopy. The phase composition of the steel in equilibrium state was determined by thermodynamic modeling in the software package Fact-Sage. As a result of the study, it was found that during the operation at 515 °C with a duration of 195,000 h, the structure changes occurred in the 09Cr18Ni9 steel with the formation of secondary phases, initiated by the release of elements with limited solubility from the supersaturated solid solution. The following secondary precipitates in structure of the solid solution of austenite presented: Cr23C6 chromium carbide, ferrite (a), G-phase. Based on comparison of the thermodynamic modeling results and on experimental determination of the phase composition, it was established that the steel structure is in a state close to equilibrium. The mechanism of structural transformations course and sequence of the secondary phases’ formation were revealed and described. At the initial stage, chromium carbide is formed, then a-ferrite is formed near the carbides, and then G-phase is formed. Results of the tests for impact strength and static elongation have shown that the change in phase composition in process of thermal aging leads to embrittlement of the steel - a reduction in ductility and impact energy. Fractografic studies of fracture surfaces of the samples have shown that the decrease in plasticity during long-term high-temperature operation is associated with softening of the grain body and strengthening of the boundaries due to secondary precipitations of the carbide phase. As a result of this process, plastic deformation is localized in the weakened volume of the body of grain surrounded by strong boundaries. The structure evolution during prolonged heat aging has the greatest effect on impact strength. At the same time, the change in ultimate and yield stress is insignificant. The main contribution to the change in mechanical characteristics of steel is made by the secondary precipitates of the carbide phase.
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奥氏铬镍钢的结构和性能
研究了515℃长期热处理对09Cr18Ni9钢组织和性能的影响。用光学显微镜和扫描电镜分析了材料的结构和相组成。在Fact-Sage软件中进行热力学建模,确定了平衡态钢的相组成。研究结果表明,在515℃、195,000 h的时效过程中,由于过饱和固溶体中释放出溶解度有限的元素,09Cr18Ni9钢的组织发生了变化,形成了二次相。奥氏体固溶体组织中有以下次生析出相:Cr23C6碳化铬、铁素体(a)、g相。通过热力学模拟结果的比较和相组成的实验测定,确定了钢结构处于接近平衡状态。揭示并描述了构造转变的机理、次生相的形成过程和顺序。在初始阶段形成碳化铬,然后在碳化物附近形成a-铁素体,然后形成g相。冲击强度和静态伸长率试验结果表明,热时效过程中相组成的变化导致钢的脆化,塑性和冲击能下降。对试样断口表面的断口学研究表明,在长期高温操作过程中,塑性的降低与碳化物相的二次析出引起的晶体软化和晶界强化有关。由于这一过程,塑性变形局限于被强边界包围的晶粒体的弱化体积。长时间热时效过程中的组织演变对冲击强度的影响最大。同时,极限应力和屈服应力的变化不显著。钢的力学特性变化的主要原因是碳化物相的二次析出。
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来源期刊
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya Materials Science-Materials Science (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
81
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