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冷喷涂Inconel718高温合金涂层组织及微观硬度

Microstructure and microhardness of the Inconel 718 superalloy coating prepared by cold gas dynamic spraying
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摘要 采用冷喷涂技术在马氏体钢表面制备了Inconel 718高温合金涂层,利用SEM、显微硬度计和纳米压痕仪分析了涂层组织和微观硬度。结果表明,涂层厚度可达300μm以上,与基底界面结合良好,底部、中部和顶部涂层微观缺陷数量和尺寸依次增多;冷喷涂沉积过程不会对Inconel 718高温合金粒子的原始组织结构产生显著影响,沉积后粒子的外部轮廓发生了明显的扭曲变形,而心部变形较小;涂层底部、中部和顶部的显微硬度依次降低,与底部涂层相比,中部和顶部涂层显微硬度分别降低10%和21%;涂层平均纳米硬度较原始粒子显著降低,底部和顶部涂层分别降低13.5%和28%;涂层内部微观缺陷分布是影响涂层整体硬度的重要因素。 The Inconel 718 superalloy coating was prepared on a martensitic steel substrate by cold gas dynamic spraying(CGDS).The coating's microstructure and microhardness were characterized by means of SEM,microhardness and nano-indentation testers.The results indicated that the coating's thickness can reach more than 300 μm,and there exists a good interfacial cohesion between the coating and the substrate.But the quantity and size of defects at bottom,middle and top areas increase gradually.There is no significant change to the original microstructure of the Inconel 718 surperalloy particle after the process of CGDS;and an obvious torsional deformation on the particle's profile is produced while little deformation at the center part occurs.The microhardness of the coating at the bottom,middle and top areas decreases in turn.Compared with the bottom area,the microhardness of the middle and top areas decreases by about 10% and 21%,respectively.The average nanohardness of the coating is much lower than the original particles,which decreases by about 13.5% at the bottom area and 28% at the top area,respectively.The distribution of micro-defects is an important factor to the microhardness of the coating.
作者 梁永立 杨晓萍 张俊宝
机构地区 宝山钢铁股份有限公司研究院
出处 《宝钢技术》 CAS 2011年第5期43-47,共5页 Baosteel Technology
关键词 冷气动力喷涂 Inconel718高温合金 组织 微观硬度 cold gas dynamic spraying(CGDS) Inconel 718 superalloy microstructure microhardness
分类号 TG174.4 [金属学及工艺—金属表面处理]
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参考文献12

  • 1娄学明,孙文儒,郭守仁,胡壮麒.IN718高温合金热腐蚀行为及其对力学性能的影响[J].稀有金属材料与工程,2008,37(2):259-263. 被引量:26
  • 2Kuo C M, Yang Y T, Bor H Y, et al. Aging effects on the microstructure and creep behavior of Inconel 718 superalloy [ J ]. Materials Science and Engineering, 2009,510 - 511 : 289 - 294.
  • 3Slama C, Abdellaoui M. Structural characterization of the aged Inconel 718 [ J ]. Journal of Alloys and Compounds,2000,306 : 277 - 284.
  • 4Leger A C, Wigren J, Hansson M O. Development of a process window for a NiCoCrA|Y plasma-sprayed coating [ J ]. Surface and Coating Technology, 1998,108 - 109 : 86 - 92.
  • 5La Barbera-Sosa J G, Santana Y Y, Staia M H, et al. Microstructural and mechanical characterization of Ni-base thermal spray coatings deposited by HVOF [ J ]. Surface & Coating Technology ,2008,202:4552 -4559.
  • 6Matthew K Hedges, Newbery A P, Grant P S. Characterisation of electric arc spray formed N i superalloy IN 718 [ J ]. Materials Science and Engineering,2002, A326 : 79 - 91.
  • 7Li Meiheng, Sun Xiaofeng, Hu Wangyu, et al. Microstructral changes and elemental diffusion of sputtered NiCrAlY coating on a Ni-base SC Superalloy subjected to high temperature[ J]. Materials Letters,2007,61 : 5169 - 5172.
  • 8Liu Fencheng, Lin Xin, Gaolin Yang, et al. Microstructure and residual stress of laser rapid formed Inconel 718 nikel-base superalloy [ J]. Optics & Laser Technology, 2011, 43: 208 -213.
  • 9Chen S,Qu S J, Liang J, et al. Sintering and microstructure evolution of columnar nickel-based superalloy sheets prepared by EB-PVD[ J]. Journal of Alloys and Compounds ,2010,507 : 146 - 150.
  • 10Alkimov A P,Kosarev V F,Papyrin A N. A method of cold gas dynamic deposition [ J]. Dokl Akad Nauk SSSR, 1990, 315 (5) :1062 - 1065.

二级参考文献50

  • 1李文亚,李长久,王豫跃,杨冠军.冷喷涂Cu粒子参量对其碰撞变形行为的影响[J].金属学报,2005,41(3):282-286. 被引量:57
  • 2Ajdelsztajn L,Jodoin B,Kim G E,et al.Cold spray deposition of nanocrystalline aluminum alloys.Metall Mater Trans A,2005,36(3):657
  • 3Sanghoon Yoon,Changhee Lee,Hansin Choi,et al.Kinetic spraying deposition behavior of bulk amorphous NiTiZrSiSn feedstock.Mater Sci Eng A,2006,415(1-2):45
  • 4Stoltenhoff T,Borchers C,Gartner C,et al.Microstructures and key properties of cold-sprayed and thermally sprayed copper coatings.Surf Coat Techn,2006,200(16-17):4947
  • 5Barradas S,Molins R,Jeandin M,et al.Application of laser shock adhesion testing to the study of the interlamellar strength and coating-substrate adhesion in cold-sprayed copper coating of aluminum.Surf Coat Techn,2005,197(1):18
  • 6Li Changjiu,Li Wenya.Deposition characteristics of titanium coating in cold spraying.Surf Coat Techn,2003,167(2-3):278
  • 7Lima R S,Kucuk A,Berndt C C.Deposition efficiency,mechanical properties and coating roughness in cold-sprayed titanium.J Mater Sci Lett,2002,21(21):1687
  • 8Lima R S,Karthikeyan J,Kay C M,et al.Microstructural characteristics of cold-sprayed nanostructured WC-Co coatings.Thin Solid Films,2002,416(1-2):129
  • 9Hyung-Jun Kim,Chang-Hee Lee,Soon-Young Hwang.Fabrication of WC-Co coatings by cold spray deposition.Surf Coat Techn,2005,191(2-3):335
  • 10Hyung-Jun Kim,Chang-Hee Lee,Soon-Young Hwang.Superhard nano WC-12%Co coating by cold spray deposition.Mater Sci Eng A,2005,391(1-2):243

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2011年 第5期

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