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镍基钎料钎焊GH586高温合金 被引量:5

Brazing of Superalloy GH586 with Nickel-base Filler Metals
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摘要 采用非晶箔状BNi82CrSiB和BNi81CrB钎料以不同的保温时间进行钎焊实验,对钎焊接头进行了力学性能测试。利用扫描电镜和能谱分析对钎焊接头微观组织和断口进行观察和分析。结果表明,在钎焊温度下延长钎焊时间(60min)能够促进钎缝与扩散层的元素均匀分布,提高钎焊接头的室温和高温(930℃)拉伸性能。通过调整钎料合金成分,提高了钎焊接头的拉伸性能,高温拉伸性能提高22.5%。接头断裂发生在近缝区基体一侧,断裂形式主要为沿晶断裂。同时讨论了Si,B等元素对钎焊接头的组织和性能的影响。 The superalloy GH586 was brazed with BNi82CrSiB and BNi81CrB amorphous foils for different holding time.The joint strength was tested.The microstructure and fracture surface were analyzed by SEM and EDS.The results show that,when prolonging the brazing time(60min),alloy elements distributed more uniformly in the brazed seam and the diffusion area,and the joint strength not only at room temperature but also at 930℃ was increased.Also the joint tensile properties were increased by adjusting chemical compositions of nickel base filler alloys,and the joint strength at 930℃ was increased 22.5%.The joint fracture occurred at the base metal near the brazed seam,with an intergranular fracture mode.The influence of elements Si and B on the joint microstructures and properties was also discussed.
作者 李天文 郭万林 淮军锋
机构地区 北京航空材料研究院焊接及锻压工艺研究室
出处 《材料工程》 EI CAS CSCD 北大核心 2010年第10期48-52,共5页 Journal of Materials Engineering
关键词 GH586高温合金 钎焊 扩散 superalloy GH586 brazing diffusion
分类号 TG454 [金属学及工艺—焊接]
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  • 1黄进峰,赵光普,焦兰英,冯涤.火箭发动机用合金GH202和GH586燃烧事故分析[J].钢铁研究学报,2005,17(3):68-71. 被引量:11
  • 2马培立,黄乾尧,仲增墉.先进高温合金.高技术新材料要览[M].北京:中国科学技术出版社,1993,93.
  • 3李炯成,林德成.金属材料金相图谱(下册)[M].北京:机械工业出版社,2006.1932-1935.
  • 4Stradling J S, Pippen D L, Frye G M. Techniques Employed by the NASA White Sands Test Facility to Ensure Oxygen System Component Safety[A]. Wereley B L. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C].Philadelphia: American Society for Testing and Materials,1983. 225-239.
  • 5Monoroe R W, Bates C E, Pears C D. Metal Combustion in High-Pressure Flowing Oxygen[A]. Wereley B L. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C]. Philadelphia: American Society for Testing and Materials, 1983. 126-149.
  • 6Benz F J, Stohzfus J M. Ignition of Metals and Alloys in Gaseous Oxygen by Frictional Heating[A]. Benning M A. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C]. Philadelphia: American Society for Testing and Materials, 1986. 38-58.
  • 7Mcilroy K, Zawierucha R, Drnevich R F. Promoted Ignition Behavior of Engineering Alloys in High-Pressure Oxygen[A]. Schroll D W. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C]. Philadelphia: American Society for Testing and Materials, 1988. 85-104.
  • 8Key C F, Lowery F S. Factors Affecting the Reproducibility of Upward Propagation Pressure Thresholds of Metals in Gaseous Oxygen[A]. Royals W T, Chou T C, Steinberg T A. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C]. Philadelphia: American Society for Testing and Materials, 1997. 71-92.
  • 9Stoltzfus J M, Lowery F. Overview of the Oxygen System Safety Problem and the Solution[A]. Proceedings of the 2nd International on Heat-Resistant Materials[C]. Gatlinburg,Tennessee, 1995.
  • 10Tayal M, Wilson D B, Stoltzfus J M. Influence of Alloying Additions on the Flammability of Nickle-Based Alloys in an Oxygen Environment[A]. Royals W T, Chou T C, Steinberg T A. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres[C]. Philadelphia: American Society for Testing and Materials, 1997. 189-204.

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材料工程
2010年 第10期

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