Browse > Article
http://dx.doi.org/10.14775/ksmpe.2021.20.03.100

Processing Method for the Laser Surface Treatment of Dental Implants  

Yoo, Young-Tae (Department of Mechanical Engineering, College of Engineering, Chosun Univ.)
Choi, Byeong-Jae (Department of Mechanical System Engineering, Chosun Univ., Graduate School)
Kim, Jin-Woo (Department of Mechanical Engineering, College of Engineering, Chosun Univ.)
Publication Information
Journal of the Korean Society of Manufacturing Process Engineers / v.20, no.3, 2021 , pp. 100-106 More about this Journal
Abstract
Typical implants are not specified the screw structure and the surface process according to the bone quality of the human body. The purpose of this study is to complement the shortcomings of the existing implant surface processing method. It is to propose a surface processing method that increases the adhesion between the implant and bone tissue by increasing the surface area per unit area of the implant. It is very important to establish precise and systematic process parameters when surface treatment of implants using lasers. Therefore, we intend to develop a process so that the implant can be a biocompatible structure using a Q-switching Nd:YAG laser with a wavelength of 1.06um. Implant surface treatment technology through this study will be used in the industry.
Keywords
Nd:YAG Laser; tep Size; Implant; Surface Processing; Titanium;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Trtica, M., Gakovic, B., Batani, D., Desai, T., Panjan, P. and Radak, B., "Surface modifications of a titanium implant by a picosecond Nd:YAG laser operating at 1064 and 532nm," Applied Surface Science, Vol. 253, No. 23, pp. 2551-2556, 2006.   DOI
2 Hong, D. S., Jeon, Y. J., Lee, H. Y., Lee, S. Y., "Development and Performance Evaluation of a Sealing-Type Abutment Inserted with a Gold Ring," Journal of the Korean Society of Manufacturing Process Engineers, Vol. 15, No. 2, pp. 97-103, 2016.   DOI
3 Lee, H. Y., Hong, D. S., "Development and Performance Evaluation of a Sealing-Type Abutment Inserted with a Gold Ring," Journal of the Korean Society of Manufacturing Process Engineers, Vol. 17, No. 6, pp. 24-30, 2018.   DOI
4 Gaggl, A., Schultes, G., Muller, W. D. and Karcher, H., "Scanning electron microscopical analysis of laser-treated titanium implant surfaces a comparative study," Biomaterials, Vol. 21, No. 10, pp. 1067-1073, 2000.   DOI
5 Peto, G., Karacs, A., Paszti, Z., Guczi, L., Divinyi, T. and Joob, A., "Surface treatment of screw shaped titanium dental implants by high intensity laser pulses," Applied Surface Science, Vol. 186, No. 1-4, pp. 7-13, 2002.   DOI
6 Karacs, A., Fancsaly, A. J., Divinyi, T., Peto, G. and Kovach, G., "Morphological and animal study of titanium dental implant surface induced by blasting and high intensity pulsed Nd-glass laser," Materials Science and Engineering : C, Vol. 23, No. 3, pp. 431-435, 2003.   DOI
7 Cho, S. A. and Jung, S. K., "A removal torque of the laser-treated titanium implants in rabbit tibia," Biomaterials, Vol. 24, No. 20, pp. 4859-4863, 2003.   DOI
8 Bereznai, M., Pelsoczi, I., Toth, Z., Turzo, K., Radnai, M., Bor, Z. and Fazekas, A., "Surface modifications induced by ns and sub-ps excimer laser pulses on titanium implant material," Biomaterials, Vol. 24, No. 23, pp. 4197-4203, 2003.   DOI