EFFECT OF THERMAL AGING ON STRUCTURAL CHANGES IN P91 AND P5 HEAT RESISTANT STEELS

V. Makarevičius, A. Baltušnikas, I. Lukosiute, Rita Kriūkienė, A. Grybėnas
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Abstract

Ferritic-martensitic heat-resistant steels are used for high-temperature service applications in power plants and the petrochemical industry due to its high strength and creep properties at high temperatures. After the long-term operation under, structural changes are taking place, such as coarsening of precipitates and migration of alloying elements within carbides, leading to M23C6 carbide lattice expansion. The thermal aging effect on the structural changes of M23C6 carbide for P91 (9Cr, 1Mo) and P5 (5Cr, 0.5 Mo) steel was investigated after exposure up to 234 days at 700 °C. The electrochemical extraction method was used to extract carbide precipitates from the steel. The identification of alloy carbides and calculation of the M23C6 lattice parameter changes have been accomplished by XRD analysis using crystal structure parameters evaluation and Rietveld refinement method. Microstructure evolution and elemental composition changes were studied by SEM-EDX microanalysis. The chromium and molybdenum content in the M23C6 carbide, determined by SEM/EDX steadily, changes and approaches equilibrium as aging time increases. X-ray diffraction measurements show that the M23C6 carbide crystal lattice parameter increases at high-temperature exposure due to enhanced diffusion of alloying elements from the matrix into a carbide lattice. When the equilibrium for diffusion of the alloying elements is reached, the lattice parameter stops growing. The study shows a significant difference in aging behavior. The obtained knowledge of alloying elements diffusion and M23C6 lattice parameter transformation changes could be used as an indicator for the assessment of heat resistant steel after the long term service.
热时效对p91和p5耐热钢组织变化的影响
铁素体-马氏体耐热钢由于其在高温下的高强度和蠕变性能,被用于电厂和石油化工行业的高温服务应用。在此条件下长期运行后,析出相粗化、碳化物内部合金元素迁移等结构发生变化,导致M23C6碳化物晶格膨胀。研究了P91 (9Cr, 1Mo)和P5 (5Cr, 0.5 Mo)钢在700℃下保温234天后M23C6碳化物组织变化的热时效效应。采用电化学萃取法提取钢中的碳化物析出物。通过XRD分析,利用晶体结构参数评价和Rietveld细化法,完成了合金碳化物的鉴定和M23C6晶格参数变化的计算。SEM-EDX显微分析研究了其微观组织演变和元素组成变化。SEM/EDX测定的M23C6碳化物中铬、钼含量随时效时间的增加而趋于平衡。x射线衍射测量表明,高温暴露时,由于合金元素从基体向碳化物晶格扩散增强,M23C6碳化物晶格参数增加。当合金元素达到扩散平衡时,晶格参数停止增长。该研究显示了衰老行为的显著差异。所获得的合金元素扩散和M23C6晶格参数转变变化的知识可以作为耐热钢长期服役后评估的指标。
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