• Introduction
• Materials and Methods
• Results
• Discussion
• Conclusion
• References

1 Lee H, "Use of the personal computer to design processing conditions for improving dental die accuracy" 55 : 141-145, 1986

2 Kwak KH, "Trend of the global 3D printing industry technology" 53 : 58-60, 2013

3 Artopoulos A, "Three-dimensional processing deformation of three denture base materials" 110 : 481-487, 2013

4 van Noort R, "The future of dental devices is digital" 28 : 3-12, 2012

5 Gordon GE, "The effect of tray selection on the accuracy of elastomeric impression materials" 63 : 12-15, 1990

6 Bailey JH, "The dimensional accuracy of improved dental stone, silverplated, and epoxy resin die materials" 59 : 307-310, 1988

7 Sun J, "The application of rapid prototyping in prosthodontics" 21 : 641-644, 2012

8 Chang PS, "The accuracy of stereolithography in planning craniofacial bone replacement" 14 : 164-170, 2003

9 Duke P, "Study of the physical properties of type IV gypsum, resincontaining, and epoxy die materials" 83 : 466-473, 2000

10 Wu GH, "Review : Polymeric-Based 3D Printing for Tissue Engineering" 35 : 285-292, 2015

11 Chua CK, "Rapid prototyping: principles and applications in manufacturing" Wiley 1998

12 Faber J, "Rapid prototyping as a tool for diagnosis and treatment planning for maxillary canine impaction" 129 : 583-589, 2006

13 Kruth JP, "Progress in additive manufacturing and rapid prototyping" 47 : 525-540, 1998

14 Kasparova M, "Possibility of reconstruction of dental plaster casts from 3D digital study models" 12 : 49-, 2013

15 Brukl CE, "Influence of gauging water composition on dental stone expansion and setting time" 51 : 218-223, 1984

16 Christensen GJ, "Impressions are changing: deciding on conventional, digital or digital plus in-office milling" 140 : 1301-1304, 2009

17 Walker MP, "Implant cast accuracy as a function of impression techniques and impression material viscosity" 23 : 669-674, 2008

18 Ender A, "Full arch scans : conventional versus digital impressions-an in-vitro study" 14 : 11-21, 2011

19 Derrien G, "Evaluation of detail reproduction for three die materials by using scanning electron microscopy and two-dimensional profilometry" 74 : 1-7, 1995

20 Valderhaug J, "Dimensional stability of elastomeric impression materials in custom-made and stock trays" 52 : 514-517, 1984

21 Ibrahim D, "Dimensional error of selective laser sintering, three-dimensional printing and PolyJet models in the reproduction of mandibular anatomy" 37 : 167-173, 2009

22 Caputi S, "Dimensional accuracy of resultant casts made by a monophase, one-step and two-step, and a novel two-step putty/light-body impression technique: an in vitro study" 99 : 274-281, 2008

23 Kenyon BJ, "Dimensional accuracy of 7 die materials" 14 : 25-31, 2005

24 Ziegler M, "Digital impression taking with reproducibly high precision" 12 : 159-163, 2009

25 Beuer F, "Digital dentistry : an overview of recent developments for CAD/CAM generated restorations" 204 : 505-511, 2008

26 Newman A, "Die materials for inlay, crown and bridge work" 127 : 415-420, 1969

27 Millstein PL, "Determining the accuracy of gypsum casts made from type IV dental stone" 19 : 239-243, 1992

28 Bloem TJ, "Determination of the accuracy of three die systems" 65 : 758-762, 1991

29 Birnbaum NS, "Dental impressions using 3D digital scanners : virtual becomes reality" 29 : 494-, 2008

30 International Organization for Standardization, "Dental gypsum products (ISO Standard No. 6873)"

31 Rudolph H, "Computeraided analysis of the influence of digitizing and surfacing on the accuracy in dental CAD/CAM technology" 37 : 579-587, 2007

32 Derrien G, "Comparison of transverse strength and dimensional variations between die stone, die epoxy resin, and die polyurethane resin" 74 : 569-574, 1995

33 Nandini Y, "Comparison of dimensional accuracy of four different die materials before and after disinfection of the impression : an in vitro study" 14 : 668-674, 2013

34 Minneci C, "Comparative study of four physical performance measures as predictors of death, incident disability, and falls in unselected older persons: the insufficienza Cardiaca negli Anziani Residenti a Dicomano Study" 63 : 136-141, 2015

35 Murugesan K, "Comparative evaluation of dimension and surface detail accuracy of models produced by three different rapid prototype techniques" 12 : 16-20, 2012

36 Marshall B, "Automated fabrication: improving productivity in manufacturing" Prentice Hall 1993

37 Hull CW, "Apparatus for production of three-dimensional objects by stereolithography"

38 Nomura GT, "An investigation of epoxy resin dies" 44 : 45-50, 1980

39 Ian G, "Additive manufacturing technologies: 3d printing, rapid prototyping, and direct digital manufacturing" Springer 2015

40 Keun-Young Lee, "Accuracy of three-dimensional printing for manufacturing replica teeth" 대한치과교정학회 45 (45): 217-225, 2015

41 Salmi M, "Accuracy of medical models made by additive manufacturing(rapid manufacturing)" 41 : 603-609, 2013

42 Wöstmann B, "Accuracy of impressions obtained with dual-arch trays" 22 : 158-160, 2009

43 Hazeveld A, "Accuracy and reproducibility of dental replica models reconstructed by different rapid prototyping techniques" 145 : 108-115, 2014

44 Pham DT, "A comparison of rapid prototyping technologies" 38 : 1257-1287, 1998

45 Keating AP, "A comparison of plaster, digital and reconstructed study model accuracy" 35 : 191-201, 2008

46 Stansbury JW, "3D printing with polymers : Challenges among expanding options and opportunities" 32 : 54-64, 2016

47 Chua CK, "3D printing and additive manufacturing: principles and applications" World Scientific 2014