Calibration of pressure to 35 GPa for the cubic press using the diamond-cemented carbide compound anvil

Wang Hai-Kuo; He Duan-Wei; Xu Chao; Liu Fang-Ming; Deng Ji-Rui; He Fei; Wang Yong-Kun; Kou Zi-Li

doi:10.7498/aps.62.180703

Abstract

In the present study, we analyse the mechanical structure for the two-stage anvil cell, and design the two-stage high pressure cell using diamond-cemented carbide compound as anvil-material. The diamond-cemented carbide compound material is synthesized using the 6×2500 ton cubic press in our laboratory. We sinter diamond/Co layer (Φ30 mm×10 mm) on a WC-cobalt substrate (Φ30 mm×13 mm) at high pressures and temperatures, then, we obtain the cubic anvils from the sintered cylindrical chunks by wire-electrode cutting. The diamond-cemented carbide compound anvil has three advantages over the traditional sintered diamond anvil: first, a scaled-up version of the sintered diamond anvil could be obtained by sintering the diamond/Co layer on a WC-cobalt substrate; second, the diamond-cemented carbide compound anvil is machined easily compared with the sintered diamond anvil; and third, the experimental cost using the diamond-cemented carbide compound anvils is much lower than using the sintered diamond anvil. Using the diamond-cemented carbide compound anvil, we design the two-stage 5.5/1.5 (octahedral edge-length/anvil truncation edge-length, in millimetre) assemble. Pressure calibration at room temperature is performed for the 5.5/1.5 assemble using the phase transitions of Zr (α-ω, 7.96 GPa; ω-β, 34.5 GPa) under high pressures. The pressure range of the two-stage apparatus besed on hinge-type cubic press is extended from 20 GPa to about 35 GPa using the 5.5/1.5 assemble. The pressure calibration for the two-stage apparatus using diamond-cemented carbide compound anvil is ongoing in our laboratory. We believe that the pressures above 50 GPa could be achieved using these anvils.

Keywords:

two-stage pressure cell /
diamond-cemented carbide compound anvil /
pressure calibration

Authors and contacts

1.
Institute of Atomic and Molecular Physics, Sichuan University, Chengdu 610065, China
Funds: Project supported by the Special Fund for Basic Research on Scientific Instruments of the National Natural Science Foundation of China (Grant No. 11027405), and the National Basic Research Program of China (Grant No. 2011CB808200).

References

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[37]	He D W, Wang F L, Kou Z L, Peng F 2007 Chinese Patent (No. ZL 2007 1 0048839.2) [贺端威, 王福龙, 寇自力, 彭放 2007 中国专利 (专利号: ZL 2007 1 0048839.2)]
[38]	Wang F L, He D W, Fang L M, Chen X F, Li Y J, Zhang W, Zhang J, Kou Z L, Peng F 2008 Acta Phys. Sin. 57 5429 (in Chinese) [王福龙, 贺端威, 房雷鸣, 陈晓芳, 李拥军, 张伟, 张剑, 寇自力, 彭放 2008 物理学报 57 5429]
[39]	Wang W D, He D W, Wang H K, Wang F L, Dong H N, Chen H H, Li Z Y, Zhang J, Wang S M, Kou Z L, Peng F 2010 Acta Phys. Sin. 59 3107 (in Chinese) [王文丹, 贺端威, 王海阔, 王福龙, 董海妮, 陈海花, 李子扬, 张剑, 王善民, 寇自力, 彭放 2010 物理学报 59 3107]
[40]	Guan J W, He D W, Wang H K, Peng F, Wang W D, Wang K X, He K 2012 Acta Phys. Sin. 61 100701 (in Chinese) [管俊伟, 贺端威, 王海阔, 彭放, 王文丹, 王凯雪, 贺凯 2012 物理学报 61 100701]
[41]	Tange Y, Takahashi E, Funakoshi K 2011 High Press. Res. 31 413
[42]	Wang H K, He D W, Xu C, Tang M J, Li Y, Dong H N, Meng C M, Wang Z G, Zhu W J 2013 J. Appl. Phys. 113 043505
[43]	He D W, Wang H K, Xu C 2012 Chinese Patent (No. 201210149626) [贺端威, 王海阔, 许超 2012 中国专利 (专利号申请号: 201210149626)]
[44]	Lorenzana H E, Boppart H, Silvera I F 1988 Rev. Sci. Instrum. 59 2583

Cited By

[1]	Irifune T, Kurio A, Sakamoto S, Inoue T, Sumiya H 2003 Nature 42 599
[2]	Qin J Q, He D W, Wang J H, Fang L M, Lei L, Li Y J, Hu J, Kou Z L, Bi Y 2008 Adv. Mater. 20 4780
[3]	Tian Y J, Xu B, Yu D L, Ma Y M, Wang Y B, Jiang Y B, Hu W T, Tang C C, Gao Y F, Luo K, Zhao Z S, Wang L M, Wen B, He J L, Liu Z Y 2013 Nature 493 385
[4]	Xu C, He D W,Wang H K, Guan J W, Liu C M, Peng F, Wang W D, Kou Z L, He K, Yan X Z, Bi Y, Liu L, Li F J, Hui B 2012 Int. J. Refract. Metals and Hard Mater. 36 232
[5]	Oganov A R, Ono S 2004 Nature 430 445
[6]	Ma Y M, Eremets M Oganov A R Xie Y, Trojan I, Medvedev S Lyakhov A O, Valle M, Prakapenka V 2009 Nature 458 182
[7]	Hemley R J, Soos Z G, Hanfland M, Mao H K 1994 Nature 369 384
[8]	Dubrovinsky L, Dubrovinskaia N, Prakapenka V B, Abakumov A M 2012 Nat. Commun. 3 1163
[9]	Jayaraman A 1986 Rev. Sci. Instrum. 57 1013
[10]	Andrault D, Fiquet G 2001 Rev. Sci. Instrum. 72 1283
[11]	Peiris S M, Butcher R, Pearson W 2005 Joint 20th AIRAPT-43th EHPRG Karlsruhe, Germany, June 27-July 1, 2005
[12]	Klotz S, Besson J M, Hamel G, Nelmes R J, Loveday J S, Marshall W G, Wilson R M 1995 Appl. Phys. Lett. 66 1735
[13]	Fan D W, Wei S Y, Xie H S 2013 Chin. Phys. B 22 010702
[14]	Sung C M 1997 High Temp. High Pressure 29 253
[15]	He D W, Wang H K, Tan N, Wang W D, Kou Z L, Peng F 2007 Chinese Patent (No. ZL 201010142804.7) [贺端威, 王海阔, 谭宁, 王文丹, 寇自力, 彭放 2007 中国专利(专利号: ZL 201010142804.7)]
[16]	Wang H K, He D W 2011 Chinese Patent (No. ZL 201110091480.3) [王海阔, 贺端威 2011 中国专利(专利号: ZL 201110091480.3)]
[17]	Li Z C, Jia X P, Huang Guo F, Hu M H, Li Y, Yan B M, Ma H A 2013 Chin. Phys. B 22 014701
[18]	Yu G, Han Q G, Li M Z, Jia X P, Ma H A, Li Y F 2012 Acta Phys. Sin. 61 040702 (in Chinese) [于歌, 韩奇钢, 李明哲, 贾晓鹏, 马红安, 李月芬 2012 物理学报 61 040702]
[19]	Khvostantsev L G 1984 High Temp. -High Pressure 16 165
[20]	Zhao Y S, He D W, Jiang Q, Pantea C, Lokshin K A, Zhang J Z, Daemen L L 2005 TAP-98, in the HiPPO Diffractor, in Advances in High-Pressure Technology for Geophysical Applications (Berlin: Elsevier) p461
[21]	Wang H K, He D W, Tan N, Wang W D, Wang J H, Dong H N, Ma H, Kou Z L, Peng F, Liu X, Li S C 2010 Rev. Sci. Instrum. 81 116101
[22]	Wang H K, He D WYan X Z, Xu C, Guan J W, Tan N, Wang W D 2011 High Press. Res. 31 581
[23]	Wang H K, He D W 2012 High Press. Res. 32 186
[24]	Liebermann Robert C, Wang Y B 1992 High-Pressure Research: Application to Earth and Planetary Sciences (Washington DC: AGU) p19
[25]	Tange Y, Irifune T, Funakoshi K 2008 High Press. Res. 28 245
[26]	Kunimoto T, Irifune T 2010 J. Phys.: Conf. Ser. 215 02190
[27]	Utsumi W, Funakoshi K I, Katayama Y, Yamakata M, Okada T, Shimomura O 2002 J. Phys.: Condens. Matter 14 10497
[28]	Wang Y B, Durham W B, Getting I C, Weidner D J 2003 Rev. Sci. Instrum. 74 3002
[29]	Tomoo K, Kenichi F, Atsushi K, Norimasa N, Yoshinori T, Sueda Y, Tomoaki K, Wataru U 2004 Phys. Earth Planet. Int. 143-144 497
[30]	Reza A, Henry Z, Carter C 2005 Dia. Relat. Mater. 14 1916
[31]	Frost D J, Poe B T, Tronnes R G, Liebske C, Duba A, Rubie D C 2004 Phys. Earth. Planet. Int. 143-144 507
[32]	Kawai N, Endo S 1970 Rev. Sci. Instrum. 41 1178
[33]	Cordier P, Rubie D C 2001 Mater. Sci. Engin. A 309-310 38
[34]	L S J, Luo J T, Su L, Hu Y, Yuan C S, Hong S M 2009 Acta Phys. Sin. 58 6852 (in Chinese) [吕世杰, 罗建太, 苏磊, 胡云, 袁朝圣, 洪时明 2009 物理学报 58 6852]
[35]	Kunimoto T, Irifune T, Sumiya H 2008 High Pres. Res. 28 237
[36]	Kunimoto T, Irifune T 2010 J. Phys.: Conf. Ser. 215 012190
[37]	He D W, Wang F L, Kou Z L, Peng F 2007 Chinese Patent (No. ZL 2007 1 0048839.2) [贺端威, 王福龙, 寇自力, 彭放 2007 中国专利 (专利号: ZL 2007 1 0048839.2)]
[38]	Wang F L, He D W, Fang L M, Chen X F, Li Y J, Zhang W, Zhang J, Kou Z L, Peng F 2008 Acta Phys. Sin. 57 5429 (in Chinese) [王福龙, 贺端威, 房雷鸣, 陈晓芳, 李拥军, 张伟, 张剑, 寇自力, 彭放 2008 物理学报 57 5429]
[39]	Wang W D, He D W, Wang H K, Wang F L, Dong H N, Chen H H, Li Z Y, Zhang J, Wang S M, Kou Z L, Peng F 2010 Acta Phys. Sin. 59 3107 (in Chinese) [王文丹, 贺端威, 王海阔, 王福龙, 董海妮, 陈海花, 李子扬, 张剑, 王善民, 寇自力, 彭放 2010 物理学报 59 3107]
[40]	Guan J W, He D W, Wang H K, Peng F, Wang W D, Wang K X, He K 2012 Acta Phys. Sin. 61 100701 (in Chinese) [管俊伟, 贺端威, 王海阔, 彭放, 王文丹, 王凯雪, 贺凯 2012 物理学报 61 100701]
[41]	Tange Y, Takahashi E, Funakoshi K 2011 High Press. Res. 31 413
[42]	Wang H K, He D W, Xu C, Tang M J, Li Y, Dong H N, Meng C M, Wang Z G, Zhu W J 2013 J. Appl. Phys. 113 043505
[43]	He D W, Wang H K, Xu C 2012 Chinese Patent (No. 201210149626) [贺端威, 王海阔, 许超 2012 中国专利 (专利号申请号: 201210149626)]
[44]	Lorenzana H E, Boppart H, Silvera I F 1988 Rev. Sci. Instrum. 59 2583

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Vol. 62, Issue 18 - 2013-09-20

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