熔融Ni-Co合金表面张力的测量与分析

稀有金属材料与工程, 2008, 37(2): 255-258.

熔融Ni-Co合金表面张力的测量与分析

肖锋 ^1, , 刘兰霄 ^2, , 方亮 ^3, , 杨仁辉 ^4, , 傅亚 ^5, , 赵红凯 ^6,

1.重庆工学院,重庆,400050

2.重庆工学院,重庆,400050

3.重庆大学,重庆,400044

4.重庆工学院,重庆,400050

5.重庆工学院,重庆,400050

6.重庆工学院,重庆,400050

基金项目: NSF of Chengqing Municipality(CSTC2005BA4016-1) CQIT(2003ZD31) Chongqing Bureau of Personnel(200594) SRF for the ROCS(2004527)

关键词：表面张力 , Ni-Co合金 , 偏聚

Measurement and Analyses of Molten Nickel-Cobalt Alloy Surface Tension

Xiao Feng ^1, , Liu Lanxiao ^2, , Fang Liang ^3, , Yang Renhui ^4, , Fu Ya ^5, , Zhao Hongkai ^6,

1.重庆工学院,重庆,400050

2.重庆工学院,重庆,400050

3.重庆大学,重庆,400044

4.重庆工学院,重庆,400050

5.重庆工学院,重庆,400050

6.重庆工学院,重庆,400050

Keywords： surface tension , Ni-Co alloys , segregation

Ni-Co高温合金广泛用于生产燃气涡轮机叶片和热交换器等工作于高温和腐蚀环境的零部件,采用改良静滴法测定了1773～1873K温度范围内熔融Ni,Ni-(5～10)%Co合金在Al2O3基板上Ar+3%H2气氛下的表面张力.熔融Ni,Ni-(5～10)%Co合金的表面张力随着温度的升高而降低.在此基础上采用Butler模型推导了表面张力随温度与浓度的变化,计算了合金体系中元素的偏聚.结果表明,Co在合金表面的浓度低于在体相的浓度.

Ni-Co super-alloy is widely used in high temperature and corrosive environments such as gas turbine engines and heat exchangers. The surface tensions of molten Ni and Ni-Co (5 and 10 mass fraction) alloys were measured at the temperature range of 1773～1873 K using an improved sessile drop method with an alumina substrate in an Ar+3%H2 atmosphere. The surface tensions of molten Ni and Ni-Co (5 and 10 mass fiaction) alloys decrease with increasing of temperature. On the basis of experimental data, the surface tension was also theoretically deduced both as functions of concentration and temperature using a model of Butler' equation. The alloy element segregation in this system was calculated. Cobalt concentration on surface of alloys is lower than that in bulk.

参考文献

[1]	Monma K;Suto H .[J].Japan Institute Metals,1960,24:163.
[2]	Ogino K;Taimatsu H;Nakatani F .[J].Japan Institute Metals,1982,46:1049.
[3]	Seyhan I;Egry I .[J].International Journal of Theoretical Physics,1999,20:1017.
[4]	肖锋 .[J].材料科学技术学报,2005,21:201.
[5]	Yao WJ.;Han XJ.;Chen M.;Wei B.;Guo ZY. .Surface tension of undercooled liquid cobalt[J].Journal of Physics. Condensed Matter,2002(32):7479-7485.
[6]	Gorges E.;Egry I. .THE SURFACE TENSION OF COPPER-NICKEL ALLOYS[J].Journal of Materials Science,1995(10):2517-2520.
[7]	Keene B J;Mills K C;Brooks R F .[J].Materials Science and Technology,1985,1:568.
[8]	Fujii H.;Matsumoto T. .Surface Tension of Molten Silicon Measured by the Electromagnetic Levitation Method under Microgravity[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2000(6):1585-1589.
[9]	蔡大勇,熊良银,孙贵东,刘文昌,姚枚.GH708高温合金热变形行为[J].稀有金属材料与工程,2006(z2):144-147.
[10]	Nogi K;Chung W B;Mclean A et al.[J].MATERIALS TRANSACTIONS,1991,32:164.
[11]	赵双群,董建新,张麦仓,谢锡善.新型镍基高温合金在950℃和1000℃的氧化行为[J].稀有金属材料与工程,2005(02):208-211.
[12]	牛建平,杨克努,孙晓峰,金涛,管恒荣,胡壮麒.镍基高温合金真空感应熔炼脱氮与脱硫[J].稀有金属材料与工程,2003(01):63-66.
[13]	肖锋 .[J].材料科学技术学报,2003,19:16.
[14]	Levin E S;Ayushina G D .[J].Russian Journal of Physical Chemistry,1971,45:792.
[15]	岳珠峰,陶仙德,吕震宙.镍基单晶超合金的剪切强度研究[J].稀有金属材料与工程,2000(04):221-224.

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