银涂层和未涂层不锈钢托槽-弓丝组件的摩擦阻力与表面粗糙度的比较评估-一项研究。
A comparative evaluation of frictional resistance and surface roughness of silver coated and uncoated stainless-steel bracket wire assembly- An study.
作者信息
Shah Pooja, Sharma Padmaja, Naik Harshit, Patel Kalpesh, Panchal Chetan
机构信息
Department of Orthodontics and Dentofacial Orthopaedics, Manubhai Patel Dental College and Hospital and ORI, Vadodara, Gujarat, India.
Maharaja Sayajirao University, Vadodara, Gujarat, India.
出版信息
J Clin Exp Dent. 2023 May 1;15(5):e411-e419. doi: 10.4317/jced.60357. eCollection 2023 May.
BACKGROUND
Silver ions act as potent antimicrobial agents. Silver coating of brackets and the archwires can help reduce the formation of white spot lesions and caries which is commonly seen with fixed orthodontic treatment. However, this may affect the friction and surface roughness of the bracket-wire assembly which in turn affects the biological tooth movement.
MATERIAL AND METHODS
A total of 60 samples were included in the study which was divided into four groups. Group-1: • 15 silver coated 0.022 x 0.028" slot MBT prescription maxillary central incisor brackets • 15 silver coated 0.019 x 0.025" stainless-steel wires; Group-2: • 15 uncoated 0.022 x 0.028" slot MBT prescription maxillary central incisor brackets • 15 silver coated 0.019 x 0.025" stainless-steel wires; Group-3: • 15 silver coated 0.022 x 0.028" slot MBT prescription maxillary central incisor brackets • 15 uncoated 0.019 x 0.025" stainless-steel wires; Group-4: • 15 uncoated 0.022x0.028" slot MBT prescription maxillary central incisor brackets • 15 uncoated 0.019 x 0.025" stainless-steel wires. All brackets and wires used were of American Orthodontics, St. Paul, USA. Surface modification of wires and brackets was carried out using the Vacuum Coating Unit model by Thermal Vacuum Evaporation method with silver nanoparticles (10 nm size). The frictional resistance of all brackets and wires was checked using Universal Testing Machine.
RESULTS
On comparison of maximum load, it was found that friction was highest in group 3, followed by group 1, group 4 and group 2. The mean difference between all groups was found to be statistically significant with a value < 0.05. The Scanning Electron Microscope studies showed that the surface roughness of silver-coated wires and brackets before the friction test was less compared to uncoated wire-bracket assembly. The surface roughness of the bracket and wire after the friction test was as follows: •Bracket roughness: Group 4> Group 1> Group 2> Group 3 •Wire roughness: Group 4> Group 1> Group 2> Group 3.
CONCLUSIONS
This study concluded that friction was least when only the wire was coated with silver and the bracket was uncoated and it was the most when the bracket was coated and the wire was uncoated. The surface roughness after the friction test was the least when the wire was uncoated. Silver nanoparticles, Frictional Resistance, Surface Roughness.
背景
银离子是有效的抗菌剂。对托槽和弓丝进行镀银处理有助于减少固定正畸治疗中常见的白斑病变和龋齿的形成。然而,这可能会影响托槽 - 弓丝组件的摩擦力和表面粗糙度,进而影响牙齿的生理性移动。
材料与方法
本研究共纳入60个样本,分为四组。第一组:• 15个镀银的0.022×0.028英寸槽沟MBT处方上颌中切牙托槽 • 15根镀银的0.019×0.025英寸不锈钢丝;第二组:• 15个未镀银的0.022×0.028英寸槽沟MBT处方上颌中切牙托槽 • 15根镀银的0.019×0.025英寸不锈钢丝;第三组:• 15个镀银的0.022×0.028英寸槽沟MBT处方上颌中切牙托槽 • 15根未镀银的0.019×0.025英寸不锈钢丝;第四组:• 15个未镀银的0.022×0.028英寸槽沟MBT处方上颌中切牙托槽 • 15根未镀银的0.019×0.025英寸不锈钢丝。所有使用的托槽和弓丝均来自美国圣保罗的美国正畸公司。采用热真空蒸发法,使用真空镀膜设备对弓丝和托槽进行表面改性,镀上银纳米颗粒(尺寸为10纳米)。使用万能试验机检查所有托槽和弓丝的摩擦阻力。
结果
比较最大载荷时发现,第三组的摩擦力最高,其次是第一组、第四组和第二组。所有组之间的平均差异具有统计学意义,P值<0.05。扫描电子显微镜研究表明,与未镀膜的托槽 - 弓丝组件相比,摩擦试验前镀银弓丝和托槽的表面粗糙度较小。摩擦试验后托槽和弓丝的表面粗糙度如下:•托槽粗糙度:第四组>第一组>第二组>第三组 •弓丝粗糙度:第四组>第一组>第二组>第三组。
结论
本研究得出结论,仅弓丝镀银而托槽未镀银时摩擦力最小,托槽镀银而弓丝未镀银时摩擦力最大。摩擦试验后,未镀银的弓丝表面粗糙度最小。银纳米颗粒、摩擦阻力、表面粗糙度。
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