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跳动及滚动激励制备的碳化硼涂层表面形貌的对比 被引量:1

Comparison of the surface morphologies of boron carbide coatings prepared by bouncing agitation and rolling agitation
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摘要 利用电子束蒸发技术蒸发碳化硼,通过弹跳激励和滚动激励两种方案来随机滚动小球,从而分别在玻璃和钢球心轴上制备了碳化硼涂层.采用扫描电子显微镜对涂层表面形貌进行了分析.同采用弹跳激励制备的涂层相比,在用滚动激励制备的涂层表面不存在裂纹和微粒脱落现象,其微粒生长的更大,相互接合的更致密.经对比证明,在制备碳化硼涂层上,滚动激励装置优于跳动激励装置. Boron carbide(B4 C) coatings are deposited on the glass and steel mandrels using two agitation methods, rolling agitation and bouncing agitation, by electron beam evaporation. Various surface morphologies of the coatings are investigated through the scanning electron microscope. It is found that the surface deposited by rolling agitation has fewer cracks and better compactness, and the particles grow better than that deposited by bouncing agitation. From a comparison of two kinds of B4 C coatings, one can find that rolling agitation has more advantages than bouncing agitation in fabricating boron carbide coatings.
作者 王自磊 廖志君 陶勇 于小河 林涛 伍登学 卢铁城
机构地区 四川大学物理系和辐射物理及技术教育部重点实验室
出处 《四川大学学报(自然科学版)》 CAS CSCD 北大核心 2011年第3期617-620,共4页 Journal of Sichuan University(Natural Science Edition)
基金 国家自然科学基金基础科学人才培养基金(J0830308)
关键词 ICF靶 碳化硼涂层 电子束蒸发 弹跳激励 滚动激励 ICF target, boron carbide coatings, electron beam evaporation, bouncing agitation, rolling agitation
分类号 O484.5 [理学—固体物理]
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参考文献10

  • 1Dittrich T R,Haan S W,Pollaine S,etal.NIF Capsule design update[J].Fusion Technology,1997,31(4):402.
  • 2Burnham A K,Alford C S,Makowiecki D M,et al.Evaluation of B4C as an ablator material for NIF Capsules[J].Fusion Technology,1997,31(4):456.
  • 3Burnham A K,Tobin M T,Anderson A T,et al.Development and evaluation of first wall materials for the national ignition facility[J].Fusion Technology,1996,30 (3):730.
  • 4McElfresh M,Gunther J,Alford C,et al.Fabrication of beryllium capsules with copper-doped layers for NIF targets:a progress report[J].Fusion Science and Technology,2006,49 (4):786.
  • 5张宝玲,何智兵,吴卫东,刘兴华,杨向东,林华平.微球CH膜表面光洁度影响因素研究[J].四川大学学报(自然科学版),2009,46(3):647-651. 被引量:2
  • 6Theobald M,Legaie O.Baclet P,et al.Thick GDP microshells for LIL and LMJ targets[J].Fusion Science and Technoly,2002,41 (3):238.
  • 7Glocker D A,Drumheller J P,Miller J R.Ion beam sputter desposition onto levitation and stalk mounted laser fusion targets[J].Journal of Vacuum Science and Technology,1982,20(4):1331.
  • 8Xu H W,Alford C S,Cooley J C,et al.Beryllium capsule coating development for NIF targets[J].Fusion Science and Technolgy,2007,51(4):547.
  • 9廖志君,范强,王自磊,等.电子束蒸发技术制备碳化硼薄膜的方法与装置[P].中国专利:200910060287.6,2010.
  • 10Ulrich S,Ehrhardt H,Schwan J,etal.Subplantation effect in magnetron sputtered superhard boron carbide thin films[J].Diamond and Related Materials,1998,7(6):835.

二级参考文献8

  • 1谷锦华,周玉琴,朱美芳,李国华,丁琨,周炳卿,刘丰珍,刘金龙,张群芳.低温制备微晶硅薄膜生长机制的研究[J].物理学报,2005,54(4):1890-1894. 被引量:17
  • 2Vermillion B A, Bousquet J T, Andrews R E, et al. Development of a new horizontal rotary GDP coater enabling increased production [J]. Fusion Science and Technology, 2007, 51: 791.
  • 3杨邦朝,王文生.薄膜科学与技术[M].成都:电子科技大学出版社,1994.
  • 4Dahneke B. The influence of flattening in the adhesion of particles [J]. Journal of Colloid and Interface Science, 1972, 40 (1): 1.
  • 5Nikroo A, Pontelandolfo J M, Castillo E R, et al. Coating and mandrel effects on fabrication of glow discharge polymer NIF scale indirect drive capsules [J]. Fusion Science and Technology, 2002, 41 : 214.
  • 6杨文彬,雷刚,孙蓉,戴亚堂,李鸿波,胡小平,周元林,张冰杰.ICF玻璃靶丸化学镀磁性Ni-P涂层的研究[J].强激光与粒子束,2007,19(10):1659-1662. 被引量:9
  • 7吴勇,吴孟强,蒋松涛,钟朝位,张树人.Ipsu薄膜体声波器件及其在通信系统中的应用[J].四川大学学报(自然科学版),2007,44(6):1235-1238. 被引量:1
  • 8吴卫东,罗江山,黄勇,张占文,许华,郑永铭,陆晓明,唐永建,赵纯培,陈红.H_2及H^+对C_xH_(1-x)薄膜表面状态的影响[J].强激光与粒子束,2000,12(5):593-596. 被引量:29

共引文献3

同被引文献14

  • 1孙军龙,邓建新,刘长霞,丁明伟.碳化硼涂层的研究进展[J].工具技术,2006,40(5):3-6. 被引量:3
  • 2Suri A K, Subramanian C, Sonber J K, et al. Syn- thesis and consolidation of boron carbide: a review [J]. International Materials Reviews, 2010, 55: 4.
  • 3Kipcak A S, Gurses P, Derun E M, et al. Char- acterization of boron carbide particles and its shiel- ding behavior against neutron radiation [J]. Ener- gy Conversion and Management, 2013, 72: 39 -44.
  • 4Burnham A K, Alford C S, Makowiecki D M, et al. Evaluation of B4 C as an ablator material for NIF capsules EJ]. Fusion Technology, 1997, 31 (4) : 456.
  • 5Dittrich T R, Haan S W, Pollaine S, et al. NIF capsule design update [J]. Fusion Technology, 1997, 31 (4): 402.
  • 6Chaudhari P, Singh A, Topkar A, et al. Hot wire chemical vapor deposited boron carbide thin film/ crystalline silicon diode for neutron detection appli- cation [J ]. Solid-State Electronics, 2012,78: 156.
  • 7Jiang H, Zhu J T, Huang Q S, et al. The influ- ence of residual gas on boron carbide thin films prepared by magnetron sputtering [J]. Applied Surface Science, 2011, 257.. 9946.
  • 8Badica P, Borodianska H, Xie S, et al. Toughness control of boron carbide obtained by spark plasma sintering in nitrogen atmosphere [J]. Ceramics In- ternational, 2014, 40: 3053.
  • 9Cermignani W, Paulson T E, Onneby C, et al. Synthesis and characterization of boron-doped car- bons[J]. Pergamon, 1995, 33 (4): 367.
  • 10Zhang D, Mcilroy D N, Stasio G D, et al. The chemical and morphological properties of boron - carbon alloys grown by plasma-enhanced chemical vapour deposition [J]. Journal ()f Materials Sci- ence, 1998, 33: 4911.

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四川大学学报(自然科学版)
2011年 第3期

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