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High Pressure Research
An International Journal
Volume 30, 2010 - Issue 3
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Original Articles

Performance of semi-sintered ceramics as pressure-transmitting media up to 30 GPa

Anton Shatskiy Department of Earth and Planetary Material Science, Tohoku University, Sendai, 980-8578, Japan; VS Sobolev Institute of Geology and Mineralogy, SB RAS, Novosibirsk, 630090, RussiaCorrespondence[email protected]
,
Konstantin D. Litasov Department of Earth and Planetary Material Science, Tohoku University, Sendai, 980-8578, Japan; VS Sobolev Institute of Geology and Mineralogy, SB RAS, Novosibirsk, 630090, Russia
,
Hidenori Terasaki Department of Earth and Planetary Material Science, Tohoku University, Sendai, 980-8578, Japan
,
Tomoo Katsura Bayerisches Geoinstitut, Universität Bayreuth, 95440, Bayreuth, Germany
&
Eiji Ohtani Department of Earth and Planetary Material Science, Tohoku University, Sendai, 980-8578, Japan
Pages 443-450 | Received 08 Jun 2010, Accepted 10 Aug 2010, Published online: 08 Sep 2010

Citations (32)

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Ivan V. Podborodnikov, Anton Shatskiy, Anton V. Arefiev, Altyna Bekhtenova & Konstantin D. Litasov. (2022) The systems KCl–CaCO3 and KCl–MgCO3 at 6 GPa. High Pressure Research 42:3, pages 245-258.
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Anastasia S. Fedoraeva, Anton Shatskiy & Konstantin D. Litasov. (2019) The join CaCO3-CaSiO3 at 6 GPa with implication to Ca-rich lithologies trapped by kimberlitic diamonds. High Pressure Research 39:4, pages 547-560.
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Daniil A. Minin, Anton F. Shatskiy, Konstantin D. Litasov & Hiroaki Ohfuji. (2019) The Fe–Fe2P phase diagram at 6 GPa. High Pressure Research 39:1, pages 50-68.
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Anton V. Arefiev, Anton Shatskiy, Ivan V. Podborodnikov & Konstantin D. Litasov. (2018) Melting and subsolidus phase relations in the system K2CO3–MgCO3 at 3 GPa. High Pressure Research 38:4, pages 422-439.
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Jingjun Wu, Fangming Liu, Jiawei Zhang, Qiang Wang, Yinjuan Liu, Jin Liu, Ke Liu & Duanwei He. (2018) Cobalt-doped magnesium oxide pressure-transmitting medium for high pressure and high-temperature apparatus. High Pressure Research 38:4, pages 448-457.
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Articles from other publishers (27)

A.F. Shatskiy, I.V. Podborodnikov, A.V. Arefiev & K.D. Litasov. (2023) The NaCl–CaCO3–MgCO3 System at 3 GPa: Implications for Mantle Solidi. Russian Geology and Geophysics 64:8, pages 932-949.
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Anton V. Arefiev, Anton Shatskiy, Altyna Bekhtenova & Konstantin D. Litasov. (2023) Phonolite-Carbonatite Liquid Immiscibility at 3–6 GPa. Minerals 13:3, pages 443.
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Anton Shatskiy, Ivan V. Podborodnikov, Anton V. Arefiev & Konstantin D. Litasov. (2023) The System KCl–CaCO3–MgCO3 at 3 GPa. Minerals 13:2, pages 248.
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Anton Shatskiy, Altyna Bekhtenova, Anton Arefiev & Konstantin Litasov. (2023) Melt Composition and Phase Equilibria in the Eclogite-Carbonate System at 6 GPa and 900–1500 °C. Minerals 13:1, pages 82.
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Anton Shatskiy, Anton V. Arefiev & Konstantin D. Litasov. (2023) Change in carbonate budget and composition during subduction below metal saturation boundary. Geoscience Frontiers 14:1, pages 101463.
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Anton Arefiev, Anton Shatskiy, Altyna Bekhtenova & Konstantin Litasov. (2022) Raman study of quench products of alkaline carbonate melt at 3 and 6 GPa: Link to the pressure of origin. Journal of Raman Spectroscopy 53:12, pages 2110-2122.
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Anton Shatskiy, Ivan V. Podborodnikov, Anton V. Arefiev, Altyna Bekhtenova & Konstantin D. Litasov. (2022) Genetic link between saline and carbonatitic mantle fluids: The system NaCl-CaCO3-MgCO3 ± H2O ± Fe0 at 6 GPa. Geoscience Frontiers 13:6, pages 101431.
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Anton V. Arefiev, Anton Shatskiy, Altyna Bekhtenova & Konstantin D. Litasov. (2022) Quench Products of K-Ca-Mg Carbonate Melt at 3 and 6 GPa: Implications for Carbonatite Inclusions in Mantle Minerals. Minerals 12:9, pages 1077.
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Anton Shatskiy, Ivan V. Podborodnikov, Anton V. Arefiev, Altyna Bekhtenova & Konstantin D. Litasov. (2022) The system KCl−CaCO3−MgCO3 at 6 GPa: A link between saline and carbonatitic diamond-forming fluids. Chemical Geology 604, pages 120931.
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Anton Shatskiy, Altyna Bekhtenova, Ivan V. Podborodnikov, Anton V. Arefiev, Yulia G. Vinogradova & Konstantin D. Litasov. (2022) Solidus of carbonated phlogopite eclogite at 3–6 GPa: Implications for mantle metasomatism and ultra-high pressure metamorphism. Gondwana Research 103, pages 188-204.
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Anton Shatskiy, Altyna Bekhtenova, Anton V. Arefiev, Ivan V. Podborodnikov, Yulia G. Vinogradova, Dmitriy I. Rezvukhin & Konstantin D. Litasov. (2022) Solidus and melting of carbonated phlogopite peridotite at 3–6.5 GPa: Implications for mantle metasomatism. Gondwana Research 101, pages 156-174.
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Anton Shatskiy, Ivan V. Podborodnikov, Anton V. Arefiev, Altyna Bekhtenova, Yulia G. Vinogradova, Konstantin M. Stepanov & Konstantin D. Litasov. (2021) Pyroxene-carbonate reactions in the CaMgSi2O6 ± NaAlSi2O6 + MgCO3 ± Na2CO3 ± K2CO3 system at 3–6 GPa: Implications for partial melting of carbonated peridotite. Contributions to Mineralogy and Petrology 176:5.
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Anton ShatskiyAnton V. Arefiev, Ivan V. Podborodnikov & Konstantin D. Litasov. (2021) Effect of water on carbonate-silicate liquid immiscibility in the system KAlSi3O8-CaMgSi2O6-NaAlSi2O6-CaMg(CO3)2 at 6 GPa: Implications for diamond-forming melts. American Mineralogist 106:2, pages 165-173.
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Anton Shatskiy, Altyna Bekhtenova, Ivan V. Podborodnikov, Anton V. Arefiev & Konstantin D. Litasov. (2020) Carbonate melt interaction with natural eclogite at 6 GPa and 1100–1200 °C: Implications for metasomatic melt composition in subcontinental lithospheric mantle. Chemical Geology 558, pages 119915.
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Anton Shatskiy, Altyna Bekhtenova, Ivan V. Podborodnikov, Anton V. Arefiev & Konstantin D. Litasov. (2020) Metasomatic interaction of the eutectic Na- and K-bearing carbonate melts with natural garnet lherzolite at 6 GPa and 1100–1200°C: Toward carbonatite melt composition in SCLM. Lithos 374-375, pages 105725.
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Anton Shatskiy, Anton V. Arefiev, Ivan V. Podborodnikov & Konstantin D. Litasov. (2020) Liquid immiscibility and phase relations in the system KAlSi3O8-CaMg(CO3)2 ± NaAlSi2O6 ± Na2CO3 at 6 GPa: Implications for diamond-forming melts. Chemical Geology 550, pages 119701.
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Konstantin Litasov, Anton Shatskiy, Ivan Podborodnikov & Anton Arefiev. 2020. Carbon in Earth's Interior. Carbon in Earth's Interior 137 165 .
Anton Shatskiy, Anton V. Arefiev, Ivan V. Podborodnikov & Konstantin D. Litasov. (2019) Origin of K-rich diamond-forming immiscible melts and CO2 fluid via partial melting of carbonated pelites at a depth of 180–200 km. Gondwana Research 75, pages 154-171.
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Anton V. Arefiev, Anton Shatskiy, Ivan V. Podborodnikov & Konstantin D. Litasov. (2019) The K2CO3–CaCO3–MgCO3 System at 6 GPa: Implications for Diamond Forming Carbonatitic Melts. Minerals 9:9, pages 558.
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K. D. Litasov & A. F. Shatskiy. (2019) MgCO3 + SiO2 Reaction at Pressures up to 32 GPa Studied Using in-Situ X-Ray Diffraction and Synchrotron Radiation. Geochemistry International 57:9, pages 1024-1033.
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Anton V. Arefiev, Anton Shatskiy, Ivan V. Podborodnikov, Altyna Bekhtenova & Konstantin D. Litasov. (2019) The System K2CO3–CaCO3–MgCO3 at 3 GPa: Implications for Carbonatite Melt Compositions in the Shallow Continental Lithosphere. Minerals 9:5, pages 296.
Crossref
Anton V. Arefiev, Anton Shatskiy, Ivan V. Podborodnikov, Sergey V. Rashchenko, Artem D. Chanyshev & Konstantin D. Litasov. (2018) The system K2CO3–CaCO3 at 3 GPa: link between phase relations and variety of K–Ca double carbonates at ≤ 0.1 and 6 GPa. Physics and Chemistry of Minerals 46:3, pages 229-244.
Crossref
K. D. Litasov, A. F. Shatskiy & E. Ohtani. (2016) Interaction of Fe and Fe3C with hydrogen and nitrogen at 6–20 GPa: a study by in situ X-ray diffraction. Geochemistry International 54:10, pages 914-921.
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N.S. Martirosyan, T. Yoshino, A. Shatskiy, A.D. Chanyshev & K.D. Litasov. (2016) The CaCO3–Fe interaction: Kinetic approach for carbonate subduction to the deep Earth’s mantle. Physics of the Earth and Planetary Interiors 259, pages 1-9.
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N.S. Martirosyan, K.D. Litasov, A.F. Shatskiy & E. Ohtani. (2015) Reactions of iron with calcium carbonate at 6 GPa and 1273–1873 K: implications for carbonate reduction in the deep mantle. Russian Geology and Geophysics 56:9, pages 1322-1331.
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Anna M. Dymshits, Konstantin D. Litasov, Igor S. Sharygin, Anton Shatskiy, Eiji Ohtani, Akio Suzuki & Kenichi Funakoshi. (2014) Thermal equation of state of majoritic knorringite and its significance for continental upper mantle. Journal of Geophysical Research: Solid Earth 119:11, pages 8034-8046.
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A. Shatskiy, T. Katsura, K.D. Litasov, A.V. Shcherbakova, Y.M. Borzdov, D. Yamazaki, A. Yoneda, E. Ohtani & E. Ito. (2011) High pressure generation using scaled-up Kawai-cell. Physics of the Earth and Planetary Interiors 189:1-2, pages 92-108.
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