1. |
Miyazaki T, Hotta Y. CAD/CAM systems available for the fabrication of crown and bridge restorations. Aust Dent J, 2011, 56(1): 97-106.
|
2. |
Roediger M, Gersdorff N, Huels A, et al. Prospective evaluation of zirconia posterior fixed partial dentures: Four-Year clinical results. International Journal of Prosthodontics, 2010, 23(2): 141-148.
|
3. |
Schiey J S, Heussen N, Reich S, et al. Survival probability of zirconia-based fixed dental prostheses up to 5 yr: a systematic review of the literature. Eur J Oral Sci, 2010, 118(5): 443-450.
|
4. |
Fasbinder D J, Dennison J B, Heys D, et al. A clinical evaluation of chairside Lithium disilicate CAD/CAM crowns A two-year report. Journal of the American Dental Association, 2010, 141(S): 10S-14S.
|
5. |
Guess P C, Zavanelli R A, Silva N R, et al. Monolithic CAD/CAM Lithium disilicate versus veneered Y-TZP crowns: comparison of failure modes and reliability after fatigue. International Journal of Prosthodontics, 2010, 23(5): 434-442.
|
6. |
Schmitter M, Mueller D, Rues S. Chipping behaviour of all-ceramic crowns with zirconia framework and CAD/CAM manufactured veneer. J Dent, 2012, 40(2): 154-162.
|
7. |
Lee J, Wang Y, Lloyd I K, et al. Joining veneers to ceramic cores and dentition with adhesive interlayers. J Dent Res, 2007, 86(8): 745-748.
|
8. |
Pozzi A, Tallarico M, Barlattani A. Monolithic Lithium disilicate Full-Contour crowns bonded on CAD/CAM zirconia Complete-Arch implant bridges with 3 to 5 years of Follow-Up. Journal of Oral Implantology, 2015, 41(4): 450-458.
|
9. |
Cooper L F, Stanford C, Feine J, et al. Prospective assessment of CAD/CAM zirconia abutment and Lithium disilicatecrown restorations: 2. 4 year results. J Prosthet Dent, 2016, 116(1): 33-39.
|
10. |
Schultheis S, Strub J R, Gerds T A, et al. Monolithic and bi-layer CAD/CAM Lithium-disilicate versus metal-ceramic fixed dental prostheses: Comparison of fracture loads and failure modes after fatigue. Clin Oral Investig, 2013, 17(5): 1407-1413.
|
11. |
Bindl A, Luthy H, Mormann W H. Strength and fracture pattern of monolithic CAD/CAM-generated posterior crowns. Dental Materials, 2006, 22(1): 29-36.
|
12. |
吴艳玲, 鲁成林, 张东升, 等. 下颌第一磨牙全瓷冠三维有限元建模及力学分析. 口腔颌面修复学杂志, 2009, 10(2): 98-100, 94.
|
13. |
Liu Bin, Lu Chenglin, Wu Yanling, et al. The effects of adhesive type and thickness on stress distribution in molars restored with All-Ceramic crowns. Journal of prosthodontics-implant esthetic and reconstructive dentistry, 2011, 20(1): 35-44.
|
14. |
刘斌, 鲁成林, 张修银. 黏接剂厚度对 IPS Empress Ⅱ全瓷冠应力的影响分析. 医用生物力学, 2010, 25(1): 56-62.
|
15. |
Agustin-panadero R, Fons-font A, Luis Roman-rodriguez J, et al. Zirconia versus metal: a preliminary comparative analysis of ceramic veneer behavior. International Journal of Prosthodontics, 2012, 25(3): 294-300.
|
16. |
Aboushelib M N, Wang Hang, Kleverlaan C J. Fatigue behavior of zirconia under different loading conditions. Dental Materials, 2016, 32(7): 915-920.
|
17. |
Shembish F A, Tong Hui, Kaizer M, et al. Fatigue resistance of CAD/CAM resin composite molar crowns. Dental Materials, 2016, 32(4): 499-509.
|
18. |
Dibner A C, Kelly J R. Fatigue strength of bilayered ceramics under cyclic loading as a function of core veneer thickness ratios. J Prosthet Dent, 2016, 115(3): 335-340.
|
19. |
von Steyern P V, Ebbesson S, Holmgren J, et al. Fracture strength of two oxide ceramic crown systems after cyclic pre-loading and thermocycling. J Oral Rehabil, 2006, 33(9): 682-689.
|
20. |
Rekow D, Thompson V P. Near-surface damage-a persistent problem in crowns obtained by computer-aided design and manufacturing. Proceedings of the Institution of Mechanical EngineersJournal of Engineering in Medicine, 2005, 219(4): 233-243.
|
21. |
Jung Y G, Peterson I M, Kim D K, et al. Lifetime-limiting strength degradation from contact fatigue in dental ceramics. J Dent Res, 2000, 79(2): 722-731.
|