1 |
Bindle A, Mormann WH. Marginal and internal fit of all ceramic CAD/CAM crown-coping on chamfer preparations. Oral Rehabil, 32, 441-7, 2005.
DOI
|
2 |
Brawek PK, Wolfart S, Endres L, Kirsten A, Reich S. The Clinical accuracy of single crowns exclusively fabricated by digital workflow-the comparison of two systems. Clin Oral Invest, 17(9), 2119-2125, 2013.
DOI
|
3 |
Christoph V, Georg S, Kurt J, Bert M. Comparing the accuracy of master models based on digital intra-oral scanners with conventional plaster casts, Physics in Medicine. 1, 20-26, 2016.
DOI
|
4 |
Colpani JT. Evaluation of marginal and internal fit of ceramic crown copings. Dent Mater, 29(2), 174-180, 2013.
DOI
|
5 |
Farahnaz N. Clinical performance of CEREC AC Bluecam conservative ceramic restorations after five years-A retrospective study. J Dent, 43, 1076-1082, 2015.
DOI
|
6 |
Francisco MR. Evaluation of the absolute marginal discrepancy of zirconia-based ceramic copings. Prosthet Dental J, 105, 108-114, 2011.
DOI
|
7 |
Gordon JC. Marginal fit of gold inlay castings. J Prosthet Dent, 16(2), 297-305, 1966.
DOI
|
8 |
Jaber HA. Marginal Adaptation of Cerec 3 CAD/CAM Composite Crowns Using Two Different Finish Line Prepaaration Designs, J Prosthodont, 15(3), 155-163, 2006.
DOI
|
9 |
Keshvad A. Marginal gap, internal fit, and fracture load of leucite-reinforced ceramic inlays fabricated by CEREC inLab and hot- pressed techniques. Prosthodont J, 20, 535- 540, 2011.
DOI
|
10 |
Kim JH. Evaluation of Marginal Gap of Fixed Dental Prostheses Fabricated by Soft Metal Material Using Dental CAD/CAM. JKSDH, 14(3), 349-355, 2014.
|
11 |
Kim JJ. CAD Technique trendfor Next generation. CAD& Graphics, 184, 122-125, 2009.
|
12 |
Kim MI. An Analysis and Industrial Classification of Modeling and Simulation Service Industry. J of KAIS, 18(3), 185-198, 2017.
|
13 |
Kim SK. CAD/CAM/CAE System Implementation Case Study in Korea, China and Japan. J of East and Central Asian Studies, 22(3), 79- 90, 2011.
|
14 |
Kim WT. Evaluation of validity of polyurethane model fabricated by intra-oral scanning method. J Kor Acad Dent Tech, 36(2), 91- 96, 2014.
DOI
|
15 |
Lee JW. Evaluation of marginal and internal gap under model-free monolithic zirconia restoration fabricated by digital intraoral scanner. J Kor Dent Pros, 54(3), 210-217, 2016.
|
16 |
May KB, Russell MM, Razzoog ME, Lang BR. Precision of fit: the procera Allceram crown. J Prosthet Dent, 80, 394-404, 1998.
DOI
|
17 |
McLean JW, von Fraunhofer JA. The estimation of cement film thickness an in vivo technique. Br Dent J, 131, 107-11, 1971.
DOI
|
18 |
Mormann WH. The evolution of the CEREC system. American Dental Association J, 137, 7-13, 2006.
|
19 |
Mohammad AA, André VR, Ko CC, Ibrahim D. Accuracy evaluation of intraoral optical impressions: A clinical study using a reference appliance, J Prosthet Dent, 118(3), 400-405, 2017.
DOI
|
20 |
Park NY. A Comparison of the Marginal Fidelity of Open CAM System in relation to Change Scale. CUP J, 2011.
|
21 |
Sarkis E. Microleakage study of CEREC III restorations. King Saud University, Dental Science J, 3, 49-53, 2012.
|
22 |
Seo HW. Trend and Prospect of CAD/CAM Industry. J of SEPT, 2(28), 30-34, 1992.
|
23 |
Shota F. Investigation of accuracy and reproducibility of abutment position by intraoral scanners. J Prosthodont Res, 450-459, 2017.
|
24 |
Yeo IS, Yang JH, Lee JB. In vitro marginal fit of Three all-ceramic crown systems. J Prosthet Dent, 90(5), 459-64, 2003.
DOI
|
25 |
Tinschert J, Natt G, Mautsch, Spikermann H, Anusavice KJ. Marginal fit of alumina- and zirconia-based fixed partial dentures produced by a CAD/CAM system. Oper Dent, 26(74), 367, 2001.
|