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Cu-0.33Cr-0.05Ti合金时效相变动力学 被引量:3

Kinetics of phase transformation of aged Cu-0.33Cr-0.5Ti alloy
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摘要 通过中频感应熔炼制备了Cu-0.33Cr-0.05Ti合金铸锭,铸锭经热挤压、固溶、冷拔和中间退火工序制备成直径2.1mm的线材,对合金线材进行时效处理,研究时效处理对合金导电率的影响并对该合金的时效动力学进行了分析.结果表明:Cu-0.33Cr-0.05Ti合金在400℃×2h可获得较高的导电率,导电率为83.13%IACS,随保温时间的延长,合金的导电率变化趋于平缓.根据马基申-富列明格规律和Avrami经验方程计算得到Cu-0.33Cr-0.05Ti合金在350,400及450℃的Avrami方程分别为f=1-exp(-0.0199t1.0555),f=1-exp(-0.0578t0.8632)和f=1-exp(-0.0613t0.7724),并得到了合金时效时的等温脱溶转变曲线. Cu-0.33Cr-0. 05Ti alloy was prepared by atmosphere melted method. The process consists of hot extrusion, solid solution, cold drawing and intermediate annealing was subsequently carried out to prepare the wire rod with the diameter of Φ2. 1 mm. The effect of aging treatment on electrical conductivity of Cu- 0. 33Cr-0.05Ti alloy is investigated. The precipitation kinetics Of the alloy is also analyzed. The result shows that, the electrical conductivity of Cu-0.33Cr-0.05Ti alloy reached 83.13%IACS after aging at 400℃ for 2 h. With the increase of aging time, the value of electrical conductivity kept unchanging. According to the Matthiessen rule and phase transition dynamics Avrami conductivity equation, the Avrami experimental equations of Cu-0.33Cr-0.05Ti alloy at 350,400,450℃ was calculated, which were f= 1-exp(-0. 0199t^1.0555), f= 1- exp (- 0. 0578t^0.8632 ), and f= 1 - exp (- 0. 0613t^0.7724 ), respectively. The isothermal transformation curves were obtained at last.
出处 《材料研究与应用》 CAS 2015年第2期91-96,共6页 Materials Research and Application
基金 国家自然科学基金资助项目(51261007) 江西省自然科学基金项目(20142BAB206013) 江西省2014教育厅青年基金项目(GJJ14443 GJJ14447)
关键词 Cu-Cr-Ti合金 时效处理 导电率 相变动力学 Cu-Cr-Ti alloy aging treatment electric conductivity kinetics of phase transformation
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