热塑性正畸材料的强制输送特性。

Force delivery properties of thermoplastic orthodontic materials.

作者信息

Kwon Jae-Sung, Lee Yong-Keun, Lim Bum-Soon, Lim Yong-Kyu

机构信息

Department of Dental Biomaterial Science, College of Dentistry, Seoul National University, Seoul, Korea.

出版信息

Am J Orthod Dentofacial Orthop. 2008 Feb;133(2):228-34; quiz 328.e1. doi: 10.1016/j.ajodo.2006.03.034.

DOI:10.1016/j.ajodo.2006.03.034

PMID:18249289

Abstract

INTRODUCTION

Our objectives were to evaluate the force and energy (resilience) delivery properties of thermoplastic overlay orthodontic materials and to determine the changes in force delivery properties after thermocycling or repeated load cycling.

METHODS

Three types and 3 thicknesses of materials were investigated. Three-point bending-recovery tests were performed at baseline and after cycling procedures. For cycling, the specimens were thermocycled for 1000 cycles or repeatedly deflected by 1 mm for 100 cycles. Vickers hardness was measured to determine the changes after thermocycling or repeated load cycling.

RESULTS

The amount of deflection for optimal force delivery was 0.2 to 0.5 mm. Thin material exerted high energy in the deflection range of optimal force delivery. In the deflection ranges of optimal force delivery (0.2-0.5 mm), the force delivery properties after thermocycling were not different from those at the baseline (P >.01) but were different after repeated load cycling (P <.01). Thermocycling and repeated load cycling influenced Vickers hardness significantly.

CONCLUSIONS

Thin material (0.508 mm) can deliver higher energy than thick materials (0.762 or 1.016 mm, P <.01) of the same brand. Therefore, thin material should be selected in the same brand of material. The effect of repeated deflection during service should be considered.

摘要

引言

我们的目标是评估热塑性覆盖正畸材料的力和能量（弹性）传递特性，并确定热循环或重复加载循环后力传递特性的变化。

方法

研究了三种类型和三种厚度的材料。在基线和循环程序后进行三点弯曲恢复试验。对于循环，将试样进行1000次热循环或100次反复以1毫米的幅度挠曲。测量维氏硬度以确定热循环或重复加载循环后的变化。

结果

实现最佳力传递的挠曲量为0.2至0.5毫米。薄材料在最佳力传递的挠曲范围内施加高能量。在最佳力传递的挠曲范围（0.2 - 0.5毫米）内，热循环后的力传递特性与基线时无差异（P >.01），但在重复加载循环后有差异（P <.01）。热循环和重复加载循环对维氏硬度有显著影响。

结论

同一品牌的薄材料（0.508毫米）比厚材料（0.762或1.016毫米，P <.01）能传递更高的能量。因此，在同一品牌材料中应选择薄材料。应考虑使用过程中反复挠曲的影响。

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热塑性正畸材料的强制输送特性。

Force delivery properties of thermoplastic orthodontic materials.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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