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新型圆角式高压碳化钨硬质合金顶锤的有限元分析

于歌 韩奇钢 李明哲 贾晓鹏 马红安 李月芬

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新型圆角式高压碳化钨硬质合金顶锤的有限元分析

于歌, 韩奇钢, 李明哲, 贾晓鹏, 马红安, 李月芬

Finite element analysis of the high-pressure tungsten carbide radius-anvil

Yu Ge, Han Qi-Gang, Li Ming-Zhe, Jia Xiao-Peng, Ma Hong-An, Li Yue-Fen
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  • 基于有限元法, 对新型圆角式高压碳化钨硬质合金顶锤进行了分析与研究.研究结果表明: 新型圆角式高压碳化钨硬质合金顶锤在不降低顶锤的传压效率的前提下, 能够将顶锤的使用寿命延长3.05%16.75 %; 新型圆角式高压碳化钨硬质合金顶锤获得的极限腔体压力值可增加至6.09 GPa, 较传统顶锤(5.80 GPa)提高5%, 从而扩宽高压下功能材料的合成区间.新型圆角式高压碳化钨硬质合金顶锤的使用, 将降低六面顶液压机的使用成本, 促进高压技术和材料科学等学科的发展.
    The high-pressure tungsten carbide (WC) radius-anvil is analyzed and studied based on the finite element method (FEM). The results indicat that under the same transfer efficiency of pressure, the lifetime of high-pressure WC radius-anvil is longer than that of the traditional anvil, which can be enhanced about 3.05%16.75%. The highest sample cell pressure generation by the new design of high-pressure WC radius-anvil increases about 5% (from 5.80 GPa to 6.09 GPa) compared with that by the traditional anvil, which can be attributed to the technology of radius-bevel. The high-pressure WC radius-anvil will be indeed very useful to broaden the synthetic region of functional materials. Further more, in this work, the operational costs of cubic high-pressure apparatus is reduced and the cubic anvil type high pressure techniques is improved in many important aspects.
    • 基金项目: 国家自然科学基金(批准号: 50572032, 50731006, 50801030)和中国博士后科学基金(批准号: 2011M500592) 资助的课题.
    • Funds: Project supported by the National Natural Science Foundation of China(Grant No. 50572032, 50731006, 50801030). and the China Postdoctoral Science Foundation (Grant No. 2011M500592).
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  • [1]

    High Pressure- Temperature Apparatus, edited by Gschneidner, K. A. Hepworth Jr., M. T. and Parlee, N. A. D. (New York, 1964).

    [2]

    Bridgman W 1952 the Physics of High Pressure London, G. Bell and Sons Ltd, 3rd, pp30-70

    [3]

    Ma Y M, Mikhail Eremets, Oganov A R, Xie Y, Ivan Trojan, Sergey Medvedev, Lyakhov A O, Mario Valle, Vitali Prakapenka 2009 Nature 458 182

    [4]

    Yanming Ma, Artem R. Oganov, Zhenwei Li, Yu Xie, Jani Kotakoski 2009 Phys. Rev. Lett. 102 065501

    [5]

    Han Q G,Ma H A, Huang G F, Zhang C, Li Z C, Jia X P 2009 Rev. Sci. Instrum 80 096107

    [6]

    Han Q G, Jia X P, Ma H A, Li R, Zhang C, Li Z C, Tian Y 2009 Acta Phys. Sin. 58 4812 (in Chinese) [韩奇钢, 贾晓鹏, 马红安, 李瑞, 张聪, 李占厂, 田宇 2009 物理学报 58 4812]

    [7]

    Hu J Z, Tang R M, Xu J A 1980 Acta Phys. Sin. 29 1351 (in Chinese) [胡静竹, 唐汝明, 徐济安 1980 物理学报 29 1351]

    [8]

    Li Z H, Zhao Q G, Zhao B 2007 Diamond & Abrasives News 195 1 (in Chinese) [李志宏, 赵清国, 赵博 2007 磨料磨具通讯 195 1]

    [9]

    Han Q G, Ma H G, Li R, Zhou L, Jia X P 2007 Heavy Machinery 3 27 (in Chinese) [ 韩奇钢, 马红安, 李瑞, 周林, 田宇, 贾晓鹏 2007 重型机械 3 27]

    [10]

    Han Q G, Ma H G, Li R, Zhou L, Tian Y, Liang Z Z, Jia X P 2007 J. Appl. Phys. 102 084504

    [11]

    Jiang Y C, Zhang J H, Li Z Z 2006 Elasticity Theory and Finite Element Method (Beijing: Science Press) (in Chinese) [蒋玉川, 张建海, 李章政 2006 弹性理论与有限元法 (科学出版社)]

    [12]

    HAN Q G, MA H A, LI R, Zhang C, Li Z C, Jia X P 2010 Chinese Journal of High Pressure Physics 24 1 (in Chinese) [韩奇钢, 马红安, 李瑞, 张聪, 李战厂, 贾晓鹏 2010 高压物理学报 24 1]

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  • PDF下载量:  719
  • 被引次数: 0
出版历程
  • 收稿日期:  2011-01-30
  • 修回日期:  2011-05-27
  • 刊出日期:  2012-02-05

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