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      KCI등재 SCIE SCOPUS

      Composites based on ZrO2-CaAl4O7 using conventional sintering and spark plasma sintering (SPS)

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      https://www.riss.kr/link?id=A105305310

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      다국어 초록 (Multilingual Abstract)

      Composites based on ZrO2 stabilized with CaO and CaAl4O7 were sintered via two different techniques: ConventionalSintering route and Spark Plasma Sintering (SPS) between 1200 and 1400 oC. The effectiveness of sintering technique appliedon the stabiliz...

      Composites based on ZrO2 stabilized with CaO and CaAl4O7 were sintered via two different techniques: ConventionalSintering route and Spark Plasma Sintering (SPS) between 1200 and 1400 oC. The effectiveness of sintering technique appliedon the stabilization degree of ZrO2 (conversion to c-ZrO2, Ca0.15Zr0.85O1.85), microstructure, densification and Vickers hardnessof the composites was evaluated. The SPS represented a remarkable advance in the c-ZrO2 formation and also resulted in ahigh densification of the composites (inclusive at 1200 oC) which attained relative densities higher than 0.95. The advantageof SPS technique was mainly evidenced by the high densification of composites with high CaAl4O7 content. Therefore, thecomposites sintered by SPS exhibited higher hardness (10 GPa) compared to that of composites produced via conventionalsintering (6 GPa).

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      참고문헌 (Reference)

      1 H. H Zender., "ZrO2 materials for application in the ceramic industry" 39 : 33-38, 1990

      2 S. Jonas, "Thermal expansion of CaAl4O7-based refractory compositions containing MgO and CaO additions" 26 : 2273-2278, 2006

      3 B. Singh, "The hydration of calcium dialuminate and its mixtures containing slag" 22 : 1019-1026, 1992

      4 Z. A. Munir, "The effect of electric field and pressure on the synthesis and consolidation of materials: A review of the spark plasma sintering method" 41 : 763-777, 2006

      5 V. Silva, "Synthesis and characterization of calcia partially stabilized zirconiahydroxyapatite powders prepared by co-precipitation method" 27 : 615-620, 2001

      6 R. Muccillo, "Synthesis and characterization of calcia fully stabilized zirconia solid electrolytes" 49 : 197-201, 2001

      7 K. Rajeswari, "Studies on ionic conductivity of stabilized zirconia ceramics (8YSZ) densified through conventional and non-conventional sintering methodologies" 37 : 3557-3564, 2011

      8 D. Michel, "Stabilized zirconias prepared by mechanical alloying" 76 : 2884-2888, 1993

      9 X. Miao, "Spark plasma sintered hydroxyapatite-yttria stabilized zirconia composites" 30 : 1793-1796, 2004

      10 Z. Shen, "Spark Plasma Sintering of Alumina" 85 : 1921-1927, 2002

      1 H. H Zender., "ZrO2 materials for application in the ceramic industry" 39 : 33-38, 1990

      2 S. Jonas, "Thermal expansion of CaAl4O7-based refractory compositions containing MgO and CaO additions" 26 : 2273-2278, 2006

      3 B. Singh, "The hydration of calcium dialuminate and its mixtures containing slag" 22 : 1019-1026, 1992

      4 Z. A. Munir, "The effect of electric field and pressure on the synthesis and consolidation of materials: A review of the spark plasma sintering method" 41 : 763-777, 2006

      5 V. Silva, "Synthesis and characterization of calcia partially stabilized zirconiahydroxyapatite powders prepared by co-precipitation method" 27 : 615-620, 2001

      6 R. Muccillo, "Synthesis and characterization of calcia fully stabilized zirconia solid electrolytes" 49 : 197-201, 2001

      7 K. Rajeswari, "Studies on ionic conductivity of stabilized zirconia ceramics (8YSZ) densified through conventional and non-conventional sintering methodologies" 37 : 3557-3564, 2011

      8 D. Michel, "Stabilized zirconias prepared by mechanical alloying" 76 : 2884-2888, 1993

      9 X. Miao, "Spark plasma sintered hydroxyapatite-yttria stabilized zirconia composites" 30 : 1793-1796, 2004

      10 Z. Shen, "Spark Plasma Sintering of Alumina" 85 : 1921-1927, 2002

      11 M. Omori, "Sintering, consolidation, reaction and crystal growth by the spark plasma system (SPS)" 287 : 183-188, 2000

      12 D. Tiwari, "Simulation of thermal and electrical field evolution during spark plasma sintering" 35 : 699-708, 2009

      13 Y. L. Bruni, "Reaction and phases from monoclinic zirconia and calcium aluminate cement at high temperatures" 38 : 4237-4244, 2012

      14 D. V. Quach, "Pressure effects and grain growth kinetics in the consolidation of nanoestructured fully stabilized zirconia by pulsed electric current sintering" 58 : 5022-5030, 2010

      15 R. Garvie, "Phase Analysis in Zirconia Systems" 55 : 303-305, 1972

      16 J. Carretero, "Obtención de circonas estabilizadas (Ca, Mg-PSZ)nanocristalinas a partir de mezclas de dolomita y circonia monoclínica mediante molienda de alta energía" 42 : 303-310, 2003

      17 S. Nath, "Microstructure, mechanical and tribological properties of microwave sintered calcia-doped zirconia for biomedical applications" 34 : 1509-1520, 2008

      18 S. Jonas, "Low termal expansion refractory composites based on CaAl4O7" 25 : 77-84, 1999

      19 S. X. Wu, "Kinetics of densification in stabilized zirconia" 14 : 123-130, 1984

      20 E. Olevsky, "Impact of thermal diffusion on densification during SPS" 92 : 122-132, 2009

      21 Q. Li, "Highpressure sintered yttria stabilized zirconia ceramics" 35 : 453-456, 2009

      22 U. Anselmi-Tamburini, "Fundamental investigations on the spark plasma sintering/synthesis process: II. Modeling of current and temperature distributions" 394 : 139-148, 2005

      23 W. Chen, "Fundamental investigations on the spark plasma sintering/synthesis process: I. Effect of dc pulsing on reactivity" 394 : 132-138, 2005

      24 R. S. Mishra, "Electric pulse assisted rapid consolidation of ultrafine grained alumina matrix composites" 287 : 178-182, 2000

      25 Z. A. Munir, "Electric Current Activation of Sintering: A Review of the Pulsed Electric Current Sintering Process" 94 : 1-19, 2011

      26 S. Grasso, "Electric Current Activated/Assisted Sintering (ECAS): A Review of Patents 1906-2008" 10 : 2009

      27 Y. Zhou, "Effects of heating rate and particle size on pulse electric current sintering of alumina" 48 : 1631-1636, 2003

      28 J. D. Kenneth, "Effect of mechanochemical treatment on the synthesis of calcium dialuminate" 10 : 1019-1023, 2000

      29 M. Demuynck, "Densification of alumina by SPS and HP: A comparative study" 32 : 1957-1964, 2012

      30 S. W. Wang, "Densification of Al2O3powder using spark plasma sintering" 15 : 982-987, 2000

      31 Y. Zhou, "Densification and grain growth in pulse electric current sintering of alumina" 27 : 3331-3337, 2007

      32 R. Orru, "Consolidation/synthesis of materials by electric current activated/assisted sintering" 63 : 127-287, 2009

      33 W.E. Lee, "Castable refractory concretes" 46 : 145-167, 2001

      34 M. A. L. Braulio, "Calcium aluminate cement source evaluation for Al2O3-MgO refractory castables" 37 : 215-221, 2011

      35 E. Mustafá, "Ca-PSZ prepared via polymeric sol–gel route" 26 : 215-220, 2000

      36 G. Bernard-Granger, "Apparent activation energy for the densification of a commercially available granulated zirconia powder" 90 : 1246-1250, 2007

      37 Y. Suzuki, "Anisotropic thermal expansion of calcium dialuminate(CaAl4O7)simulated by molecular dynamics" 30 : 57-61, 2004

      38 "ASTM C1327, Standard Test Method for Vickers Indentation Hardness of Advanced Ceramics"

      39 L. Liu, "A new heating route of spark plasma sintering and its effect on alumina ceramic densification" 559 : 462-466, 2013

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      2022-10-24 학회명변경 한글명 : 세라믹연구소 -> 청정에너지연구소
      영문명 : Ceramic Research Institute -> Clean-Energy Research Institute
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