Journal of Engineering and Applied Sciences
Year:
2017
Volume:
12
Issue:
6
Page No.
1623 - 1628
References
Aboushelib, M.N., D.N. Jager, C.J. Kleverlaan and A.J. Feilzer, 2005. Microtensile bond strength of different components of core veneered all-ceramic restorations. Dental Mater., 21: 984-991.
Direct Link | Attia, A., K.M., S. Freitag and M. Kern, 2006. Fracture load of composite resin and feldspathic all-ceramic CAD-CAM crowns. J. Prosthetic Dent., 95: 117-123.
PubMed | Coelho, P.G., N.R. Silva, E.A. Bonfante, P.C. Guess and E.D. Rekow
et al., 2009. Fatigue testing of two porcelain-zirconia all-ceramic crown systems. Dental. Mater., 25: 1122-1127.
PubMed | Corazza, P.H., S.A. Feitosa, A.L.S. Borges and A.D. Bona, 2013. Influence of convergence angle of tooth preparation on the fracture resistance of Y-TZP-based all-ceramic restorations. Dental Mater., 29: 339-347.
CrossRef | Denry, I. and J.A. Holloway, 2010. Ceramics for dental applications: A review. Mater., 3: 351-368.
CrossRef | Direct Link | Gibbs, C.H., K.J. Anusavice, H.M. Young, J.S. Jones and J.F. Esquivel-Upshaw, 2002. Maximum clenching force of patients with moderate loss of posterior tooth support: A pilot study. J. Prosthetic Dent., 88: 498-502.
PubMed | Direct Link | Guess, P.C., A. Kulis, S. Witkowski, M. Wolkewitz and Y. Zhang
et al., 2008. Shear bond strengths between different zirconia cores and veneering ceramics and their susceptibility to thermocycling. Dental Mater., 24: 1556-1567.
Direct Link | Kelly, J.R., R. Giordano, R. Pober and M.J. Cima, 1990. Fracture surface analysis of dental ceramics: Clinically failed restorations. Intl. J. Prosthodontics, 3: 430-440.
Direct Link | Kim, J.H., J.H. Park, Y.B. Park and H.S. Moon, 2012. Fracture load of zirconia crowns according to the thickness and marginal design of coping. J. Prosthetic Dent., 108: 96-101.
PubMed | Direct Link | Kokubo, Y., M. Tsumita, K.A.N.O. Takamitsu and S. Fukushima, 2011. The influence of zirconia coping designs on the fracture load of all-ceramic molar crowns. Dental Mater. J., 30: 281-285.
PubMed | Direct Link | Kosmac, T., C. Oblak, P. Jevnikar, N. Funduk and L. Marion, 1999. The effect of surface grinding and sandblasting on flexural strength and reliability of Y-TZP zirconia ceramic. Dental Mater., 15: 423-433.
Direct Link | Larsson, C., S.E. Madhoun, A. Wennerberg and V.V.P. Steyern, 2012. Fracture strength of yttria-stabilized tetragonal zirconia polycrystals crowns with different design: An
in vitro study. Clin. Oral Implants Res., 23: 820-826.
CrossRef | PubMed | Direct Link | Liu, P.R. and M.E. Essig, 2008. Panorama of dental CAD-CAM restorative systems. Compend. Continuing Educ. Dent., 29: 482-484.
Direct Link | Lorenzoni, F.C., L.M. Martins, N.R. Silva, P.G. Coelho and P.C. Guess
et al., 2010. Fatigue life and failure modes of crowns systems with a modified framework design. J. Dent., 38: 626-634.
PubMed | Direct Link | Manicone, P.F., P. Rossi Iommetti and L. Raffaelli, 2007. An overview of zirconia ceramics: Basic properties and clinical applications. J. Dent., 35: 819-826.
CrossRef | Direct Link | Mora, G.P. and W.J. O'Brien, 1994. Thermal shock resistance of core reinforced all-ceramic crown systems. J. Biomed. Mater. Res. Part A., 28: 189-194.
CrossRef | PubMed | Direct Link | Mrazova, M.A.R.T.I.N.A. and A. Klouzkova, 2009. Leucite porcelain fused to metals for dental restoration. Ceramics Silikaty, 53: 225-230.
Direct Link | Pallis, K., J.A. Griggs, R.D. Woody, G.E. Guillen and A.W. Miller, 2004. Fracture resistance of three all-ceramic restorative systems for posterior applications. J. Prosthetic Dent., 91: 561-569.
PubMed | Direct Link | Scherrer, S.S. and D.W.G. Rijk, 1993. The fracture resistance of all-ceramic crowns on supporting structures with different elastic moduli. Intl. J. Prosthodontics, 6: 462-467.
PubMed | Direct Link | Silva, N.R.F.A., E.A. Bonfante, B.T. Rafferty, R.A. Zavanelli and E.D. Rekow
et al., 2011. Modified Y-TZP core design improves all-ceramic crown reliability. J. Dental Res., 90: 104-108.
PubMed | Direct Link | Sim, H.B., Y.J. Kim, M.J. Kim, M.R. Shin and S.C. Oh, 2010. Fracture resistance and marginal fidelity of zirconia crown according to the coping design and the cement type. J. Korean Acad. Prosthodontics, 48: 194-201.
Direct Link | Stawarczyk, B., M. Ozcan, C.H. Hammerle and M. Roos, 2012. The fracture load and failure types of veneered anterior zirconia crowns: An analysis of normal and Weibull distribution of complete and censored data. Dental Mater., 28: 478-487.
PubMed | Direct Link | Sundh, A. and G. Sjogren, 2004. A comparison of fracture strength of yttrium-oxide-partially-stabilized zirconia ceramic crowns with varying core thickness, shapes and veneer ceramics. J. Oral Rehabil., 31: 682-688.
CrossRef | PubMed | Direct Link | Tsalouchou, E., M.J. Cattell, J.C. Knowles, P. Pittayachawan and A. McDonald, 2008. Fatigue and fracture properties of yttria partially stabilized zirconia crown systems. Dental Mater., 24: 308-318.
PubMed | Direct Link | Vagkopoulou, T., S.O. Koutayas, P. Koidis and J.R. Strub, 2009. Zirconia in dentistry: Part 1 discovering the nature of an upcoming bioceramic. Eur. J. Esthetic Dent., 4: 130-151.
PubMed | Wataha, J.C., 2000. Biocompatibility of dental casting alloys a review. J. Prosthet Dent., 83: 223-234.
Direct Link |