The bonding of orthodontic brackets is very important in the procedure of orthodontics, and the bond strength is affected by lots of factors.
托槽的黏接是正畸治疗程序中非常关键的一环,而托槽的黏接强度又受到多种因素的影响。
The invention discloses a method for manufacturing orthodontic brackets and belongs to the technical field of orthodontic bracket manufacturing.
本发明公开了一种制造正畸托槽的方法,属于正畸托槽制造技术领域。
Abstract: Accurate position and adequate bond strength of orthodontic brackets are necessary conditions for the success of orthodontic treatment.
摘要正畸托槽的精确定位和足够的粘结强度,是正畸治疗获得成功的必要条件。
Methods:The friction between orthodontic brackets and arch wires under simulated masticatory contacts was studied using the finite element method.
方法:应用有限元分析的方法,对咬合力对摩擦力的影响进行了模拟研究。
Compared to normal stainless steel orthodontic brackets, the nano-TiO_2 ceramic coated orthodontic brackets exhibit good surficial characters: low surface roughness and low bracket-wire friction.
纳米陶瓷涂层直丝弓托槽与国产普通金属直丝弓托槽相比,具有良好的表面光洁度,且托槽-弓丝摩擦力明显减小。
To compare the level of friction resistance (fr) of different design self-ligating brackets using various bracket-wire combination in dry state during orthodontic phase of leveling and aligning.
探讨在干燥条件下,在牙齿排齐整平阶段应用不同的自锁托槽与不同的镍钛圆丝组合所产生的滑动阻力。
To compare the level of friction resistance (fr) of different design self-ligating brackets using various bracket-wire combination in dry state during orthodontic phase of leveling and aligning.
探讨在干燥条件下,在牙齿排齐整平阶段应用不同的自锁托槽与不同的镍钛圆丝组合所产生的滑动阻力。
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