Paper Titles

Synthesis and Characterization of Alkyl Bacterial Cellulose through Etherification with Alkyl Bromide in DMAc/LiCl
p.478

W-Doped VO₂(M) with Tunable Phase Transition Temperature
p.483

The Synthesis and Solubility of a Wholly Aromatic Polyamide Containing Para- and Meta-Substituted Phenylene Rings
p.488

A Review on Research of the Sustained Release Drug Delivery System Based on Magnesium Aluminate Layered Double Hydroxide
p.495

CAD/CAM Zirconia for Dental Application
p.505

Research on Flexural Fatigue of Fiber Bundles for Lay-Flat Hose
p.512

Preparation and Superparamagnetic Properties of Graphene/Fe₃O₄ Nanocomposite
p.518

Synthesis and Cytotoxic Activity of Salicyloyl Hydrazone Derivatives
p.522

Study on Cytotoxicity of “Dextran-Magnetic Layered Double Hydroxide–Fluorouracil” Targeted Liposomes In Vitro
p.526

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 320CAD/CAM Zirconia for Dental Application

CAD/CAM Zirconia for Dental Application

Article Preview

Abstract:

During the 20th century, both dental materials and dental technologies for the fabrication of dental prosthesis progressed remarkably. Owing to the increased demand of safety and aesthetics, 3 mol% yttria stabilized tetragonal zirconia polycrystalline has been recently introduced in prosthetic dentistry for the fabrication of crowns and fixed partial dentures, in combination with CAD/CAM technique. This greatly changed the conventional dental laboratory work which is labor-intensive and experience-dependent. This review mainly introduced the state of dental zirconia and the application of CAD/CAM technology in dentistry. Key words: Dental Zirconia; CAD/CAM Technique; Mechanical Properties; Transformation Toughing; Low Temperature Aging;

You might also be interested in these eBooks

China Functional Materials Technology and Industry Forum

Info:

Periodical:

Applied Mechanics and Materials (Volume 320)

Pages:

505-511

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.320.505

Citation:

Cite this paper

Online since:

May 2013

Authors:

Ning Li, Zhi Kai Wu, Chao Jian, Wan Qian Zhao, Jia Zhen Yan

Keywords:

CAD/CAM Technique, Dental Zirconia, Low Temperature Aging, Mechanical Property, Transformation Toughing

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] J.D. Helmer and T.D. Driskell: in Research on Bioceramics Symp., Clemson University, South Carolina, (1969).

[2] R.C. Garvie, R.H. Hannink and R.T. Pascoe: Nature, Vol. 258 (1975) No.5537, p.703.

DOI: 10.1038/258703a0

[3] J.R. Kelly and I. Denry: Dental Materials, Vol.24 (2008) No.3, p.289.

[4] I. Denry and J.R. Kelly: Dental Materials, Vol.24 (2008) No.3, p.299.

[5] C. Piconi and G.Maccauro: Biomaterials, Vol.20 (1999) No.1, p.1.

[6] M. Guazzato, M. Albakry and S.P. Ringer: Dental Materials, Vol.20 (2004) No.5, p.449.

[7] H. Yilmaz, C. Aydin and B.E. Gul: Journal of prosthetic dentistry, Vol.98 (2007) No.2, p.120.

[8] T. Kosmac, C. Oblak, P. Jevnikar, et al: Journal of Biomedical Materials Research, Vol.53 (2000) No.4, p.304

[9] P.R. Liu: Compendium of Continuing Education in Dentistry, Vol.26 (2005) No.7, p.507.

[10] T. Miyazaki, Y. Hotta and J. Kunii: Dental Materials Journal, Vol.28 (2009) No.1, p.44.

[11] W. Burger, H.G. Richter, C. Piconi, et al: J Mater Sci, Vol.8 (1997) No.2, p.113.

[12] A. Sundh and G. Sjogren: Dent Mater, Vol.22 (2006) No.8, p.778.

[13] P.V. Steyern, P. Carlson and K. Nilner: J Oral Rehab, Vol.32 (2005) No.3, p.180.

[14] C. Larsson, P.V. Steyern, B. Sunzel, K. Nilner: Swed Dent J, Vol.30 (2006) No.2, p.45.

[15] D. Suttor, H. Hauptmann, R. Schnagl, et al: US Patent 6709694, (2004).

[16] B. Jon, A. Ketharam and P. Anish: J Eur Ceram Soc, Vol.28 (2008) No.5, p.973.

[17] P.F Manicone, P.R Iommetti and L.Raffaelli: J Dent, Vol.35 (2007) No.11, p.819.

[18] A.H. Heuer, N. Claussen, W.M. Kriven, et al: J Am Ceram Soc, Vol.65 (1982) No.12, p.642.

[19] A.H. Heuer: J Am Ceram Soc, Vol.70 (1987) No.10, p.689.

[20] R.H.J. Hannink, P.M. Kelly and B.C. Muddle: J Am Ceram Soc Vol.83 (2000) No.3, p.461.

[21] F.F. Lange: J. Mater. Sci, Vol.17 (1982) No.1, p.225.

[22] B. Basu: Int. Mater. Rev, Vol.50 (2005) No.4, p.239.

[23] K. Kobayashi, H. Kuwajima and T. Masaki: Solid State Ionics, (1981) No.(3-4), p.489.

[24] J. Chevalier: Biomaterials, Vol.27 (2006) No.4, p.535.

[25] M. Cattani-Lorente, S.S. Scherrer, P. Ammann and M. Jobin: Acta Biomaterialia, Vol.7 (2011) No.2, p.858.

DOI: 10.1016/j.actbio.2010.09.020

[26] J. Chevalier, C. Bernard and M.D. Jean: J Am Ceram Soc, Vol.82 (1999) No.8, p.2150.

[27] V Lughi and V Sergo: Dent Mater, Vol.26 (2010) No.8, p.807.

[28] S. Lawson: J. Eur. Ceram. Soc, Vol.15 (1995) No.6, p.485.

[29] J.J. Swab: J. Mater. Sci, Vol.26 (1991) No.24, p.6706.

[30] J. Chevalier, C. Bernard and M.D. Jean: J Am Ceram Soc, Vol.82 (1999) No.8, p.2150.

[31] Y. Yuanfu, W. Cheng and T. Jiemo: West China Journal of Stomatology, Vol.26 (2008) No.5, p.556. (In Chinese)

[32] R. Christian, A. Elke, H. Wolfram, et al: U.S. Patent 0292597A1 (2007).

[33] K. Ajmal and G.B. Dmitri: U.S. Patent 7,497,983 B2 (2009).

[34] S. Daniel, H. Holger, S. Robert and F. Sybille: U.S. Patent 6,709,694 B1 (2004)

[35] M. Nakasuga and H. Kimura: U.S. Patent 7871950 (2011).

[36] S.A. Nightingale, D.P. Dunne and H.K. Worner: J. Mater. Sci, Vol.31 (1996) No.19, p.5039.

[37] A. Goldstein, N. Travitzky and A. Singurindy: Journal of the European Ceramic Society, Vol.19 (1999) No.12, p.2067.

[38] F. Duret: Proc. Intl. Conf Comput, Vol. 1 (1975), p.500.

[39] E.D. Rekow: J Am Dent Assoc, Vol.137 (2006), P.5.

[40] M. Takashi, H. Yasuhiro, K. Jun and et al: Dental Materials Journal, Vol.28 (2009) No.1, p.44.

[41] H. Fujisaki, K. Kawamura and K. Imai: E.P. Patent 0729325 (2009).

[42] F. Hiroyuki, K. Kiyataka and I. Kohei: U.S. Patent 0027742 (2011).

[43] P.R. Liu: Compend Contin Educ Dent, Vol.26 (2005) No.7, p.507.