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http://dx.doi.org/10.14347/kadt.2019.41.4.255

Observation of Castability of Dental DLP 3D Printer Materials  

Song, Joon-boo (Department of Dental Laboratory Science, Catholic University of Pusan)
Park, Yu-jin (Department of Dental Laboratory Science, Catholic University of Pusan)
Choi, Sung-min (Department of Dental Laboratory Science, Catholic University of Pusan)
Publication Information
Journal of Technologic Dentistry / v.41, no.4, 2019 , pp. 255-262 More about this Journal
Abstract
Purpose: Recently, the production technology of dental prosthesis using 3D Printer workpeices has been developed. However, the lack of information on the work processes and casting techniques of materials for 3D printing casting is expected to require research. Therefore, in this study, we intend to cast a Dental DLP 3D Printer workpiece, which is being commercialized, to identify its appearance and internal clearance, and to observe its castability. Methods: Castability of the 3D Printer workpiece was evaluated. The specimen is prepared in a cylindrical shape and in a 1 mm thick coping shape. The control specimen is made of wax and the experimental specimen is made of resin using two types of 3D printers. After casting, the appearance of the casting body was observed and the internal clearance of the coping was measured. Results: RP1 and RP2, cylindrical specimens, were partially cast or fin. When coping-type specimens were measured before casting, the internal clearance of PE2 was more accurate than that of PC and PE1. When coping-type specimens were measured after casting, CE1 was the most accurate in occlusal clearance and CE2n was the most accurate in axial clearance. Conclusion: 1. Exterior observations of the casting body indicated casting defects and fins. 2. Internal clearance observations show that the occlusal clearance of the castings is larger after casting, and the axial clearance of the castings is smaller after casting. 3. It is judged that the RP2 specimen is more likely to be applied for casting than the RP1 specimen.
Keywords
3D printe; Castability; Dental CAD/CAM; Dental DLP; Digital dentistry;
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Times Cited By KSCI : 4  (Citation Analysis)
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