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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.
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Keywords:
- radius-anvil /
- cubic high pressure apparatus /
- HPHT /
- FEM
[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 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 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 24 1]
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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 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 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 24 1]
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