Micro-fine finishing of a feldspar porcelain for dental prostheses

References 

1. Kelly JR. Ceramics in restorative and prosthetic dentistry. Annu Rev Mater Sci. 1997;27:443–468
2. Thompson VP, Rekow DE. Dental ceramics and the molar crown testing ground. J Appl Oral Sci. 2004;12(sp.):26–36
3. van Noort R. Dental ceramics. In:  van Noort R editors. Introduction to dental materials. 2nd ed.. Oxford: Elsevier; 2002;p. 231–246
4. Reiss B, Walther W. Clinical long-term results and 10-year Kaplan–Meier analysis of CEREC restorations. Int J Comput Dent. 2000;3:9–23
   • MEDLINE
5. Bindl A, Mormann WH. An up to 5-year clinical evaluation of posterior in-ceram CAD/CAM core crowns. Int J Prosthodont. 2002;15:451–456
   • MEDLINE
6. Otto T, De Nisco S. Computer-aided direct ceramic restorations: a 10-year prospective clinical study of Cerec CAD/CAM inlays and onlays. Int J Prosthodont. 2002;15:122–128
   • MEDLINE
7. Kelly JR. Clinically relevant approach to failure testing of all-ceramic restorations. J Prosthet Dent. 1999;81:652–661
   • Abstract
   • Full Text
   • Full-Text PDF (296 KB)
   • CrossRef
8. Thompson Rekow D. Engineering long-term clinical success of advanced ceramic prostheses. J Mater Sci Mater Med. 2007;18:47–56
   • MEDLINE
   • CrossRef
9. Tinschert J, Zwez D, Marx R, Anusavice KJ. Structural reliability of alumina-, feldspar-, leucite-, mica- and zirconia-based ceramics. J Dent. 2000;28:529–535
   • Abstract
   • Full Text
   • Full-Text PDF (118 KB)
   • CrossRef
10. Harvery CK, Kelly JR. Contact damage as failure mode during in vitro testing. J Prosthodont. 1996;5:95–100
    • MEDLINE
11. Lawn BR, Deng Y, Miranda P, Pajares A, Chai H, Kim DK. Overview: damage in brittle layer structures from concentrated loads. J Mater Res. 2002;17:3019–3036
12. Lawn BR, Deng Y, Lloyd IK, Janal MN, Rekow ED, Thompson VP. Materials design of ceramic-based layer structures for crowns. J Dent Res. 2002;81:433–438
    • MEDLINE
    • CrossRef
13. Sindel J, Petschelt A, Grellner F, Dierken C, Greil P. Evaluation of subsurface damage in CAD/CAM machined dental ceramics. J Mater Sci Mater Med. 1998;9:291–295
    • MEDLINE
    • CrossRef
14. Grellner F, Hoscheler S, Greil P, Sindel J, Petschelt A. Residual stress measurements of computer aided design/computer aided manufacturing (CAD/CAM) machined dental ceramics. J Mater Sci. 1997;32:6235–6242
15. Yin L, Jahanmir S, Ives LK. Abrasive machining of porcelain and zirconia with a dental handpiece. Wear. 2003;255:975–989
16. Song, XF, Yin L, Han YG, Li J. Finite element analysis of subsurface damage of ceramic prosthesis in simulated intraoral dental resurfacing. J Biomed Mater Res Part B Appl Biomater, in press.
17. Yin L, Song XF, Qu SF, Han YG, Wang H. Surface integrity and removal mechanism in simulated dental finishing of a feldspathic porcelain. J Biomed Mater Res Part B Appl Biomater. 2006;79B:365–378
18. Giordano RA, Campbell S, Pober R. Flexural strength of feldspathic porcelain treated with ion exchange, overglaze, and polishing. J Prosthet Dent. 1994;71:468–472
    • Abstract
    • Full-Text PDF (626 KB)
    • CrossRef
19. Kelly JR, Giordano R, Pober R, Cima MJ. Fracture surface analysis of dental ceramics: clinically failed restorations. Int J Prosthodont. 1990;3:430–440
    • MEDLINE
20. Anusavice KJ. Degradability of dental ceramics. Adv Dent Res. 1992;6:82–89
    • MEDLINE
21. Giordano R. Materials for chairside CAD/CAM–produced restorations. J Am Dent Assoc. 2006;137:14S–21S
22. Siegel SC, von Fraunhofer JA. Dental cutting: the historical development of diamond burs. J Am Dent Assoc. 1998;129:740–745
    • MEDLINE
23. Siegel SC, von Fraunhofer JA. Cutting efficiency of three diamond bur grit sizes. J Am Dent Asso. 2000;131:1706–1710
24. Yin L, Ives LK, Jahanmir S, Rekow ED, Romberg E. Abrasive machining of glass-infiltrated alumina with diamond burs. Mach Sci Technol. 2001;5:43–61
25. Dong X, Yin L, Jahanmir S, Ives LK, Rekow ED. Abrasive machining of glass-ceramics with a dental handpiece. Mach Sci Technol. 2000;4:209–233
26. Yin L, Song XF, Qu SF, Huang T, Mei JP, Yang ZY, et al. Performance evaluation of a dental handpiece in simulation of clinical finishing using a novel 2-DOF in vitro apparatus. Proc IME H J Eng Med. 2006;220:929–938
27. Peterson IM, Pajares A, Lawn BR, Thompson VP, Rekow ED. Mechanical characterization of dental ceramics by Hertzian contacts. J Dent Res. 1998;77:589–602
    • MEDLINE
    • CrossRef
28. Deng Y, Lawn BR, Lloyd IK. Characterization of damage modes in dental ceramic bilayer structures. J Biomed Mater Res Part B Appl Biomater. 2002;63:137–145
29. Malkin S. Grinding technology: theory and applications of machining with abrasives. New York: Wiley; 1989;
30. Jahanmir S, Xu HHK, Ives LK. Mechanisms of material removal in abrasive machining of ceramics. In:  Jahanmir S,  Ramulu M,  Koshy P editor. Machining of ceramics and composites. New York: Marcel Dekker; 1998;p. 11–84
31. Shih AJ, McSpadden SB, Morris TO, Grant MB, Yonushonis TM. High speed and high material removal rate grinding of ceramics using the vitreous bond CBN wheel. Mach Sci Technol. 2000;4:43–58
32. Westland IAN. The energy requirement of the dental cutting process. J Oral Rehabil. 1980;7:51–63
    • MEDLINE
    • CrossRef
33. Hwang TW, Malkin S. Upper bound analysis for specific energy in grinding of ceramics. Wear. 1999;231:161–171
34. Hwang TW, Malkin S. Grinding mechanisms and energy balance for ceramics. J Manuf Sci Eng. 1999;121:623–631
35. Hwang TW, Evans CJ, Malkin S. Size effect for specific energy in grinding of silicon nitride. Wear. 1999;225–229:862–867
36. Zhang LC, Suto T, Noguchi H, Waida T. A study of creep-feed grinding of metallic and ceramic materials. J Mater Process Technol. 1995;48:267–274
37. Malkin S, Hwang TW. Grinding mechanisms for ceramics. Ann CIRP. 1996;45:569–580
38. Shaw MC. Principles of abrasive processing. Oxford: Oxford University Press; 1996;p. 213
39. Bifano TG, Dow TA, Scattergood RO. Ductile-regime grinding: a new technology for machining brittle materials. ASME J Eng Ind. 1991;113:184–189
40. Stephenson DJ, Vesalovac D, Manley S, Corbett J. Ultra-precision grinding of hard steels. Precis Eng. 2001;25:336–345
41. Blaedel KL, Taylor JS, Evans CJ. Ductile-regime grinding of brittle materials. In:  Jahanmir S,  Ramulu M,  Koshy P editor. Machining of ceramics and composites. New York: Marcel Dekker; 1998;p. 139–176
42. Morris JC, Callahan DL, Kulik J, Patten JA, Scattergood RO. Origins of the ductile regime in single-point diamond turning of semiconductors. J Am Ceram Soc. 1995;78:2015–2020