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高铁扣件弹簧钢中含Ce夹杂物生成的热力学分析 被引量:6

Thermodynamic analysis of cerium inclusion formed in spring steel used in fastener of high-speed railway
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摘要 通过热力学计算研究稀土Ce夹杂物在高铁扣件弹簧钢中生成的热力学条件,并分析加入稀土Ce对Al2O3夹杂的变质作用及条件。由稀土Ce硫化物、氧化物和氧硫化物的标准吉布斯生成自由能构建了稀土Ce夹杂物的空间析出图,并将其应用在预测高铁扣件弹簧钢中加入稀土Ce后夹杂物的生成顺序,并确定其存在形式及热力学转换条件。计算结果表明:钢液中加入稀土最容易生成的是CeAlO3夹杂,其次是Ce2O2S;在本计算所用钢种的氧活度和硫活度分别为0.000 639和0.005 845的条件下,钢液中首先会析出Ce2O2S;当钢液中Al含量为0.013%时,稀土变质Al2O3夹杂的理论加入量为0.001 9%。 Thermodynamic condition of rare earth cerium inclusion formed in spring steel used in fastener of high-speed railway was studied by the thermodynamic calculation. In addition, the effect and condition of rare earth cerium on modifying Al2O3 inclusion were analyzed. Through the standard Gibbs free energies of formation of the sulfides, oxides and oxysulfides of cerium, the precipitation diagram in space was built. And it was applied to predict the sequence of rare earth inclusion formed the spring steel. Finally, the ultimate state of rare earth inclusions and their thermodynamic transformation condition were determined. The computation results show that the most easily formed inclusion is CeAIO3 when rare earth element Ce is added to the molten steel, with Ce2O2S following. In this work, when the activities of oxygen and sulfur in the steel are 0.000 639 and 0.005 845, respectively, the first precipitated inclusion is Ce2O2S. Moreover, when the aluminum content in the steel is 0.013%, the theoretic amount of added rare earth Ce is 0.0019%, which can realize Al2O3deformation.
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2013年第3期720-726,共7页 The Chinese Journal of Nonferrous Metals
基金 南车集团资助项目(32200730)
关键词 热力学 稀土 夹杂物 弹簧钢 高铁扣件 thermodynamics rare earth inclusion spring steel fastener of high-speed railway
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  • 1KIESSLING R, NORDBERG H. Influence of inclusions on mechanical properties of steel[C]// International Conference on Production and Application of Clean Steels. London: The Iron and Steel Institute, 1972: 179-185.
  • 2LANKFORD J. Effect of oxide inclusions on fatigue failure[J]. International Metals Reviews, 1977, 22(1): 221-228.
  • 3FRUEHAN R J. The effect of zirconium, cerium, and lanthanum on the solubility of oxygen in liquid iron[J]. Metallurgical and Materials Transactions B, 1974, 5(2): 345-347.
  • 4WILSON W G, KAY D, VAHED A. The use of thermodynamics and phase equilibria to predict the behavior of the rare earth elements in steel[J]. Journal of Metals, 1975, 26(5) 14-23.
  • 5FISCHER W A, BERTRAM H. The deoxidation, desulphurization and nitrogen removal of iron melts containing oxygen, sulfur or nitrogen using the rare earth metals cerium and lanthanum[J]. Arch Eisenhuttenwes, 1973, 44: 87-95.
  • 6HAN Q, FENG X, LIU S, NIU H, TANG Z. Equilibria between cerium or neodymium and oxygen in molten iron[J].Metallurgical and Materials Transactions B, 1990, 21(2): 295-302.
  • 7LANGENBERG F C, CHIPMAN J. Equilibrium between cerium and sulfur in liquid iron[J]. Trans Met Soc AIME, 1958, 212: 290-293.
  • 8李文超.钢中稀土夹杂物生成的热力学规律[J].钢铁,1986,21(3):7-7.
  • 9KATSUMATA A, TODOROKI H. Effect of rare earth metal on inclusion composition in molten stainless steel[J]. Iron and steelmaker, 2002, 29(7): 51-57.
  • 10FARRAR J, DOLBY R E. Sulfide inclusions in steel[J]. ASM, 1975, 6(2): 252-268.

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