Journal of Technologic Dentistry 2016; 38(1): 1-6
Published online March 30, 2016
https://doi.org/10.14347/kadt.2016.38.1.1
© Korean Academy of Dental Technology
김남식;이명곤;홍민호;
마산대학교 치기공과;부산가톨릭대학교 치기공학과;경북대학교병원,생명의학연구원;
Kim, Nam-Sic;Lee, Myung-Kon;Hong, Min-Ho;
Department of Dental Laboratory Technology Masan University;Catholic University of Pusan;Kyungpook National University Hospital, Biomedical Research Institute, A3DI;
Purpose: The present study was to determine the stress distribution of an abutment screw according to implant abutment material. Methods: This study was a tightening torque 10 Ncm, 20 Ncm, set to 30 Ncm, and a titanium alloy (Ti-6Al-4V), PEEK (polyetheretherketone), Endoligns (60% Carbon Fiber Reinforced PEEK) material of the custom abutment titanium alloy (Ti-6Al-4V) the stress distribution in the material of the abutment screw will be evaluated by the finite element analysis. Results: Abutment screw most stress has been concentrated on the interface between the fixture and the abutment was also part of the interface that the threads are started. Depending on the abutment of the abutment screw Material von Mises stress values are shown differently. 10Ncm T10 under the tightening torque of 294.2 MPa, P10 is 562.8 MPa, appeared to E10 is 295.8 MPa, 20Ncm tightening torque under T20 is 581.1 MPa, P20 is 1125 MPa, E20 was shown to 585.1 MPa, 30Ncm tightening torque under T30 is 918.2 MPa, P30 is 1795 MPa, E30 has appeared 925.1 MPa. Conclusion: If the abutment is used as Endoligns, it was confirmed that the abutment screw exhibits of von Mises stress value is similar to the titanium alloy abutment.
Keywords: PEEK,Abutment screw,FEA,
Journal of Technologic Dentistry 2016; 38(1): 1-6
Published online March 30, 2016 https://doi.org/10.14347/kadt.2016.38.1.1
Copyright © Korean Academy of Dental Technology.
김남식;이명곤;홍민호;
마산대학교 치기공과;부산가톨릭대학교 치기공학과;경북대학교병원,생명의학연구원;
Kim, Nam-Sic;Lee, Myung-Kon;Hong, Min-Ho;
Department of Dental Laboratory Technology Masan University;Catholic University of Pusan;Kyungpook National University Hospital, Biomedical Research Institute, A3DI;
Purpose: The present study was to determine the stress distribution of an abutment screw according to implant abutment material. Methods: This study was a tightening torque 10 Ncm, 20 Ncm, set to 30 Ncm, and a titanium alloy (Ti-6Al-4V), PEEK (polyetheretherketone), Endoligns (60% Carbon Fiber Reinforced PEEK) material of the custom abutment titanium alloy (Ti-6Al-4V) the stress distribution in the material of the abutment screw will be evaluated by the finite element analysis. Results: Abutment screw most stress has been concentrated on the interface between the fixture and the abutment was also part of the interface that the threads are started. Depending on the abutment of the abutment screw Material von Mises stress values are shown differently. 10Ncm T10 under the tightening torque of 294.2 MPa, P10 is 562.8 MPa, appeared to E10 is 295.8 MPa, 20Ncm tightening torque under T20 is 581.1 MPa, P20 is 1125 MPa, E20 was shown to 585.1 MPa, 30Ncm tightening torque under T30 is 918.2 MPa, P30 is 1795 MPa, E30 has appeared 925.1 MPa. Conclusion: If the abutment is used as Endoligns, it was confirmed that the abutment screw exhibits of von Mises stress value is similar to the titanium alloy abutment.
Keywords: PEEK,Abutment screw,FEA,