A morphologic evaluation of defects created by a piezoelectric ultrasonic scaler on casting gold alloy.
10.5051/jkape.2009.39.4.385
- Author:
Young Sung KIM
1
;
Soo Hwan KIM
;
Won Kyung KIM
;
Young Kyoo LEE
Author Information
1. Department of Periodontics, Asan Medical Center, Seoul, Korea. periolee@amc.seoul.kr
- Publication Type:Original Article
- Keywords:
dental equipment;
gold alloys;
ultrasonic
- MeSH:
Alloys;
Dental Equipment;
Electrons;
Gold Alloys;
Ultrasonics
- From:The Journal of the Korean Academy of Periodontology
2009;39(4):385-390
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
PURPOSE: In this study we evaluated the morphologic aspects of defects created by a piezoelectric ultrasonic scaler with scaler tip on casting gold alloy using scanning electron microscope (SEM) images and defect surface profiles. METHODS: 54 blocks of type III casting gold alloy (Firmilay, Jellenko Inc, CA, USA) were scaled by a piezoelectric ultrasonic scaler (P-MAX, Satelec, France) with scaler tip (No. 1 tip) on a sledge device. 2-dimensional profiles of defects on all samples were investigated by a surface profilometer (a-Step 500, KLA-Tencor, CA, USA). The selected working parameters were lateral force (0.5 N, 1.0 N, 2.0 N), mode (P mode, S mode), and power setting (2, 4, 8). SEM images were obtained. Defect surface profiles were made on Microsoft Excel program using data obtained by a surface profilometer. RESULTS: Among P mode samples, there were similarities on defect surface profiles and SEM images regardless of lateral force. The defects created in P mode were narrow and shallow although the depth and the width increased as power setting changed low (2) to high (8). In P mode samples, the defect depth was the greatest when lateral force of 0.5 N was applied. However all the depths were smaller than 1 m. SEM images of Lateral force of 0.5 N, S mode, power setting 2 and 4 were similar to that of P mode, but the other SEM images of S mode showed discernible changes. Defect depth of S mode samples was the greatest when lateral force of 1.0 N was applied. CONCLUSIONS: Within the limitations of this study, it can be concoluded that removing capability of piezoelectric scaler with scaler tip becomes maximized as power level becomes higher but the capability is restricted when excessive lateral force is applied on scaler tip.
