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超音速等离子喷涂连续梯度热障涂层工艺优化研究 被引量:7

Research on the Technique Optimization of Supersonic Plasma Spray of Continuously Graded Thermal Barrier Coatings
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摘要 采用"双通道、双温区"超音速等离子喷涂工艺制备了Ce-YSZ/NiCoCrAlY连续梯度热障涂层(CG-TBCs)。借助热喷涂粒子状态在线监测系统Spraywatch-2i,分别研究了电弧功率、喷涂距离对Ce-YSZ/NiCoCrAlY粒子速度和温度的影响。实验结果表明,当电弧功率为70 kW和68 kW时,Ce-YSZ与NiCoCrAlY粒子速度达到最高,分别为620 m/s和430 m/s。Ce-YSZ和NiCoCrAlY粉末粒子的平均温度均随电弧功率的增加而上升,但当功率分别达到60 kW和65 kW时,粒子温度的上升趋势不再明显。电弧功率选择在68 kW,喷涂距离定为90 mm左右时,制备的CG-TBCs在经历100次热循环后,其表面和内部均未出现明显的裂纹,具有优异的热震性能。 A continuously graded thermal barrier coatings(CG-TBCs) system of Ce-YSZ/NiCoCrAlY is prepared with the new "dual channels,dual temperature regions" supersonic plasma spraying process.The effect of arc power and spraying distance on Ce-YSZ/NiCoCrAlY particle′s temperature and velocity is studied by using online test system of Spraywatch-2i.The results shows that Ce-YSZ and NiCoCrAlY particle′s velocity is at a tiptop(620 m/s and 430 m/s) when arc power is 70 kW and 68 kW respectively.Ce-YSZ and NiCoCrAlY pa...
作者 郭永明 王海军 刘明 陆欢
机构地区 装甲兵工程学院装备再制造技术国防科技重点实验室
出处 《装甲兵工程学院学报》 2008年第5期74-78,共5页 Journal of Academy of Armored Force Engineering
基金 国家自然科学基金资助项目(90305023) 国防科技重点实验室基金资助项目(9140C8502010803)
关键词 超音速等离子喷涂 连续梯度热障涂层 工艺参数 优化 supersonic plasma sprays continuously graded thermal barrier coatings technique parameters optimization
分类号 TG174.442 [金属学及工艺—金属表面处理]
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参考文献7

  • 1[1]Miller R A.Thermal Barrier Coatings for Aircraft Engines:History and Directions[J].Journal of Thermal Spray Technology,1997,6 (3):35-42.
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  • 5韩志海,王海军,徐滨士,刘明.超音速等离子喷涂制备梯度功能热障涂层的特点[J].有色金属(冶炼部分),2006(z1):51-56. 被引量:6
  • 6[7]Han Zhihai,Xu Bingshi,Wang Haijun,et al.A Comparison of Thermal Shock Behaver Between Currently Plasma Spray and Recently Supersonic Plasma Spray CeO2-Y2 O3"ZRO2 Graded Thermal Barrier Coatings[J].Surface and Coating Technology,2007(201):5253-5256.
  • 7[8]Han Z H,Wang H J,GuoYB.Thermal Shock Behnvior of the Supersonic Plasma Sprayed CeO2-Y2O3-ZrO2 Functionally Graded TBC[C]//Proceedings of the 2007 International Thermal Spray Conference.2007:518-522.

二级参考文献6

  • 1徐滨士.发展绿色再制造,建设资源节约型和环境友好型社会[J].科技导报,2005,23(9):1-1. 被引量:6
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  • 4[4]Klod Kokini,Jeffery DeJonge,Sudarshan Rangaraj,et al.Thermal shock of functionally graded thermal barrier coatings with similar thermal resistance[J].Surface and Coatings Technology,2002,154:223-232.
  • 5[5]Marek-Jerzy Pindera,Jacob Aboudi,Steven M Arnold.The effect of interface roughness and oxide film thickness on the inelastic response of thermal barrier coatings to thermal cycling[J].Materials Science and Engineering,2000,(A284):158-175.
  • 6[6]Kawasaki A,Watanabe R.Thermal fracture behavior of metal/ceramic functionally graded material[J].Engineering Fracture Mechanics,2002,69:1713-1728.

共引文献5

同被引文献107

引证文献7

二级引证文献45

装甲兵工程学院学报
2008年 第5期

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