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高温合金M17和M17F抗氧化性能的比较研究 被引量:5

A COMPARATIVE INVESTIGATION OF OXIDATION PERFORMANCE OF SUPERALLOYS M17 AND M17F AT HIGH TEMPERATURES
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摘要 空气中1000℃、1050℃、1100℃恒温氧化及1000℃循环氧化的热重分析(TGA)表明,M17F合金的氧化速率比M17合金的慢,氧化皮对基体的粘附性也强于M17合金的。金相、扫描电镜、能谱(EDAX)、X衍射和电子探针的观察分析发现在M17合金,γ/γ’基体上MC(M=Ti,V等)碳化物呈细条状析出,且大多分布在析出的大块状的γ相和(γ+γ’)共晶的周围;γ’相的不均匀析出提高了合金表面局部区域的Ti/Cr比,不利于氧化皮的均匀生长,而细长条状的碳化物增大了合金的氧化深度并引起内氧化;而M17F合金在氧化皮/合金基体界面形成了一连续的Ta(Ti)的氧化物带,收善了氧化性能。M17合金表面注入1×10(17)Y+/cm2后,改变了氧化层的生长机制。 Both isothermal (at 1000℃,1050℃, 1100℃) and thermal cyclic(at 1000℃) oxidation performance of superalloys M17F and M17 in air were studied through TGA, XRD, SEM/EDAX and SEM/EPMA.The oxidation rate of M17F was much lower than that of M17, and the scale on M17F was more adhesive than that on M17. Such differences might result from the difference in the microstructure and refractory elements of the two superalloys. The irregular precipitation of γ' and/or (γ+γ')eutectic plates with higher Ti/Cr ratio resulted in rapid oxidation at the corresponding areas and thereby in the uneven scale on M17, while γ' precipitates were fine and dispersed in M17F. Furthermore, the rapid oxidation of the long strip-like MC carbides in M17 prevented the alloy from developing a protective scale. Elemental Ta in M17F brought about a Ta-rich oxide ribbon keying at the oxide scale/alloy substrate interface and thereby improved the cyclic oxidation performance of the alloy. Implanted Y+ favored the formation of a protective Cr2O3 layer in the scale and was thereby beneficial to the improvement of the oxidation-resistance of the alloy.
出处 《中国腐蚀与防护学报》 CAS CSCD 1996年第1期20-28,共9页 Journal of Chinese Society For Corrosion and Protection
基金 中科院重大项目课题资助
关键词 高温氧化 显微组织 镍基合金 抗氧化 High temperature oxidation, Nickel-based superalloy, Microstructure, Refractory element,Yttrium implantation
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参考文献2

  • 1彭晓,中国稀土学报,1994年,12卷,328页
  • 2Yang S W,Oxid Met,1981年,15卷,1981页

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