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      CAD/CAM 수복에 사용되는 리튬 다이실리케이트 세라믹의 물리/기계적 특성과 미세구조

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Lithium disilicate ceramics can be used for one-visit restoration using chairside CAD/CAM. The aim of this study was to compare physical/mechanical properties of the two lithium disilicate ceramics for chairside CAD/CAM restoration and to observe their microstructure. Before and after heat treatment, elastic modulus, biaxial flexural strength, surface hardness, fracture toughness, and coefficient of thermal expansion of IPS e.max CAD (Ivoclar Vivadent) and Rosetta SM (Hass) were tested. The crystalline structures were observed using field-emission scanning microscopy and x-ray diffraction analysis. IPS e.max CAD showed significantly higher elastic modulus than Rosetta SM. There were no significant differences in biaxial flexural strength between them either before or after heat treatment, but both ceramics showed significantly increased biaxial flexural strength after heat treatment. Surface hardness of IPS e.max CAD significantly decreased after heat treatment, but for Rosetta SM, it increased significantly. IPS e.max CAD showed higher surface hardness before heat treatment while Rosetta SM showed higher values after heat treatment. Both ceramics showed greatly increased fracture toughness after heat treatment. The FE-SEM images presented similar patterns of crystalline structure in the two ceramics but Rosetta SM had smaller crystallines after heat treatment. In the XRD analysis, they had similar patterns corresponding to the standard lithium metasilicate and lithium disilicate at each stage.
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      Lithium disilicate ceramics can be used for one-visit restoration using chairside CAD/CAM. The aim of this study was to compare physical/mechanical properties of the two lithium disilicate ceramics for chairside CAD/CAM restoration and to observe thei...

      Lithium disilicate ceramics can be used for one-visit restoration using chairside CAD/CAM. The aim of this study was to compare physical/mechanical properties of the two lithium disilicate ceramics for chairside CAD/CAM restoration and to observe their microstructure. Before and after heat treatment, elastic modulus, biaxial flexural strength, surface hardness, fracture toughness, and coefficient of thermal expansion of IPS e.max CAD (Ivoclar Vivadent) and Rosetta SM (Hass) were tested. The crystalline structures were observed using field-emission scanning microscopy and x-ray diffraction analysis. IPS e.max CAD showed significantly higher elastic modulus than Rosetta SM. There were no significant differences in biaxial flexural strength between them either before or after heat treatment, but both ceramics showed significantly increased biaxial flexural strength after heat treatment. Surface hardness of IPS e.max CAD significantly decreased after heat treatment, but for Rosetta SM, it increased significantly. IPS e.max CAD showed higher surface hardness before heat treatment while Rosetta SM showed higher values after heat treatment. Both ceramics showed greatly increased fracture toughness after heat treatment. The FE-SEM images presented similar patterns of crystalline structure in the two ceramics but Rosetta SM had smaller crystallines after heat treatment. In the XRD analysis, they had similar patterns corresponding to the standard lithium metasilicate and lithium disilicate at each stage.

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      참고문헌 (Reference)

      1 한국산업표준 KSL 1603, "파인 세라믹스-단일체 세라믹스의 상온경도 시험방법" 산업자원부 기술표준원 2-8, 2008

      2 오승한, "치과심미수복용 세라믹의 최신 특성평가" 대한치과의사협회 51 (51): 6-11, 2013

      3 안승근, "압자압입법에 의한 치과용 도재의 파괴인성 평가" 34 : 309-319, 1996

      4 한국산업표준 KSL 1600, "고성능 요업 제품의 파괴인성 시험방법" 지식경제부 기술표준원 8-10, 2010

      5 Bona AD, "Weibull analysis and flexural strength of hot-pressed core and veneered ceramic structures" 19 : 662-669, 2003

      6 Krautkramer J, "Ultrasonic Testing of Materials" Springer-Verlag 13-14, 1990

      7 Yamaguchi R, "Thermal expansion of visible-light-cured composite resins" 14 : 64-67, 1989

      8 Tysowsky GW, "The science behind lithium disilicate: today's surprisingly versatile, esthetic and durable metal-free alternative" 28 : 112-113, 2009

      9 Davidowitz G, "The Use of CAD/CAM in Dentistry" 55 : 559-570, 2011

      10 Anusavice KJ, "Phillips' Science of dental materials" Saunders 655-719, 2003

      1 한국산업표준 KSL 1603, "파인 세라믹스-단일체 세라믹스의 상온경도 시험방법" 산업자원부 기술표준원 2-8, 2008

      2 오승한, "치과심미수복용 세라믹의 최신 특성평가" 대한치과의사협회 51 (51): 6-11, 2013

      3 안승근, "압자압입법에 의한 치과용 도재의 파괴인성 평가" 34 : 309-319, 1996

      4 한국산업표준 KSL 1600, "고성능 요업 제품의 파괴인성 시험방법" 지식경제부 기술표준원 8-10, 2010

      5 Bona AD, "Weibull analysis and flexural strength of hot-pressed core and veneered ceramic structures" 19 : 662-669, 2003

      6 Krautkramer J, "Ultrasonic Testing of Materials" Springer-Verlag 13-14, 1990

      7 Yamaguchi R, "Thermal expansion of visible-light-cured composite resins" 14 : 64-67, 1989

      8 Tysowsky GW, "The science behind lithium disilicate: today's surprisingly versatile, esthetic and durable metal-free alternative" 28 : 112-113, 2009

      9 Davidowitz G, "The Use of CAD/CAM in Dentistry" 55 : 559-570, 2011

      10 Anusavice KJ, "Phillips' Science of dental materials" Saunders 655-719, 2003

      11 Schultheis S, "Monolithic and bi-layer CAD/CAM lithium–disilicate versus metal–ceramic fixed dental prostheses : Comparison of fracture loads and failure modes after fatigue" 17 : 1407-1413, 2013

      12 Aboushelib MN, "Microtensile bond strength of different components of core veneered all-ceramic restorations" 21 : 984-991, 2005

      13 Charlton DG, "Measurement of select physical and mechanical properties of 3machinable ceramic materials" 39 : 573-579, 2008

      14 Fasbinder DJ, "Materials for Chairside CAD/CAM Restorations" 31 : 702-709, 2010

      15 Culp L, "Lithium Disilicate : The Restorative Material of Multiple Options" 31 : 716-725, 2010

      16 Ban S, "Influence of test method on failure stress of brittle dental materials" 69 : 1791-1799, 1990

      17 Harrer W, "Influence of surface defects on the biaxial strength of a silicon nitride ceramic–Increase of strength by crack healing" 32 : 27-35, 2012

      18 ISO-Standards, "ISO 6872 Dentistry-Ceramic materials" International Organization for Standardization 11-12, 2008

      19 Ivoclar Vivadent, "IPS e.max Lithium Disilicate:The Future of All-Ceramic Dentistry. Material Science, Practical Applications, Keys to Success" Ivoclar Vivadent 1-15, 2009

      20 Fischer H, "Fracture toughness of dental ceramics : comparison of bending and indentation method" 18 : 12-19, 2002

      21 Albakry M, "Fracture toughness and hardness evaluation of three pressable all-ceramic dental materials" 31 : 181-188, 2003

      22 Rukmani SJ, "Effects of V and Mn Colorants on the Crystallization Behavior and Optical Properties of Ce-Doped Li-Disilicate Glass-Ceramics" 90 : 706-711, 2007

      23 Jin J, "Effect of Test Method on Flexural Strength of Recent Dental Ceramics" 23 : 490-496, 2004

      24 Sharma V, "Effect of Grain-Boundary Phase on Dynamic Compression Fatigue in Hot-Pressed Silicon Nitride" 81 : 129-139, 1998

      25 Chu SJ, "Current Clinical Strategies with Lithium-Disilicate Restorations" 33 (33): 66-67, 2012

      26 Kuzielova E, "Crystallization Mechanism and Bioactivity of Lithium Disilicate Glasses in Relation to CaO, P2O5, CaF2Addition" 51 : 136-141, 2007

      27 Powers JM, "Craig’s Restorative Dental Materials" Mosby Elsevier 65-, 2012

      28 Powers JM, "Craig’s Restorative Dental Materials" Mosby Elsevier 79-, 2006

      29 Denry I, "Ceramics for Dental Applications : A Review" 3 : 351-368, 2010

      30 Giordano R, "Ceramics Overview : Classification by Microstructure and Processing Methods" 31 : 682-697, 2010

      31 McLaren EA, "Ceramics : Rationale for Material Selection" 31 : 666-679, 2010

      32 Stookey SD, "Catalyzed Crystallization of Glass in Theory and Practice" 51 : 805-808, 1959

      33 Albakry M, "Biaxial flexural strength, elastic moduli, and x-ray diffraction characterization of three pressable all-ceramic material" 89 : 374-380, 2003

      34 Buso L, "Biaxial flexural strength of CAD/CAM ceramics" 60 : 311-319, 2011

      35 Guess PC, "All-Ceramic Systems : Laboratory and Clinical Performance" 55 : 333-352, 2011

      36 Holand W, "A comparison of the microstructure and properties of the IPS Empress 2 and the IPS Empress glass ceramics" 53 : 297-303, 2000

      37 Zanotto ED, "A bright future for glass-ceramics" 89 : 19-27, 2010

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2026 평가예정 재인증평가 신청대상 (재인증)
      2020-01-01 평가 등재학술지 유지 (재인증) KCI등재
      2017-01-01 평가 등재학술지 유지 (계속평가) KCI등재
      2014-11-11 학회명변경 한글명 : 대한치과기재학회 -> 대한치과재료학회
      영문명 : The Korea Research Society For Dental Materials -> Korean Society For Dental Materials
      KCI등재
      2014-11-11 학술지명변경 한글명 : 대한치과기재학회지 -> 대한치과재료학회지
      외국어명 : J. Korea Res. Soc. Dent. Mater. -> Korean Journal of Dental Materials
      KCI등재
      2013-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2010-01-01 평가 등재 1차 FAIL (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2003-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2002-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2000-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.33 0.33 0.25
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.2 0.18 0.408 0.07
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