应变和热循环对镍钛封闭螺旋弹簧卸载挠度模式的联合老化效应:一项体外对比研究。
Combined aging effects of strain and thermocycling on unload deflection modes of nickel-titanium closed-coil springs: an in-vitro comparative study.
作者信息
Vidoni Gabriele, Perinetti Giuseppe, Antoniolli Francesca, Castaldo Attilio, Contardo Luca
机构信息
Resident, orthodontic program, Department of Biomedicine, School of Dentistry, University of Trieste, Trieste, Italy.
Resident, orthodontic program, Department of Biomedicine, School of Dentistry, University of Trieste, Trieste, Italy.
出版信息
Am J Orthod Dentofacial Orthop. 2010 Oct;138(4):451-457. doi: 10.1016/j.ajodo.2009.05.022.
INTRODUCTION
There are no reports on the aging effects of thermocycling of nickel-titanium (NiTi) based coil springs, and few studies have investigated their superelasticity phases in full. In this study, we compared the mechanical properties of NiTi-based closed-coil springs after the combined aging effects of prolonged strain and thermocycling, as a reflection of the clinical situation.
METHODS
Ninety NiTi-based closed-coil springs were used, 30 each of the following types: (1) Nitinol (3M Unitek, Monrovia, Calif), (2) Ni-Ti (Ormco, Glendora, Calif), and (3) RMO (Rocky Mountain Orthodontics, Denver, Colo); all had similar dimensions (length, 12 mm). In each sample group, 2 equal subgroups of 15 coil springs were extended by either 50% (to 18 mm) or 150% (to 30 mm), immersed in artificial saliva, and kept at 37°C for 45 days. All springs underwent sessions of 1000 thermocycles (1 minute long) from 5°C to 55°C on days 22 and 45. Unload deflection curves from both the 50% and 150% extensions (according to their strain subgroups) were recorded by using a universal testing machine before the strain (baseline) and at both 22 and 45 days, immediately after thermocycling.
RESULTS
At baseline, the loads exerted by the NiTi-based coil springs varied from 99.8 to 245.1 gf for the RMO (50% strain) and Ni-Ti (150% strain) groups. Statistically significant, although small, differences were seen at each time point in both the 50% and 150% strain subgroups; generally, the highest and lowest values were recorded in the Ni-Ti and Nitinol groups (all, P <0.001). Only the Nitinol coil-spring group showed an acceptable superelasticity phase. The strain and thermocycling did not dramatically change the deactivation forces of any coil springs.
CONCLUSIONS
NiTi-based closed-coil springs might not have a superelasticity phase, and prolonged strain and thermocycling do not produce clinically relevant alterations in their deactivation forces.
引言
目前尚无关于镍钛(NiTi)基螺旋弹簧热循环老化效应的报道,且很少有研究全面探究其超弹性阶段。在本研究中,我们比较了NiTi基闭合螺旋弹簧在长时间应变和热循环联合老化效应后的力学性能,以反映临床情况。
方法
使用了90个NiTi基闭合螺旋弹簧,以下每种类型各30个:(1)镍钛诺(3M Unitek,蒙罗维亚,加利福尼亚州),(2)Ni-Ti(奥美科,格伦多拉,加利福尼亚州),以及(3)RMO(落基山正畸,丹佛,科罗拉多州);所有弹簧尺寸相似(长度为12毫米)。在每个样本组中,将15个螺旋弹簧的两个相等亚组分别拉伸50%(至18毫米)或150%(至30毫米),浸入人工唾液中,并在37°C下保持45天。在第22天和第45天,所有弹簧都经历了1000次从5°C到55°C的热循环(每次1分钟)。在应变前(基线)以及第22天和第45天热循环后,立即使用万能试验机记录50%和150%拉伸(根据其应变亚组)的卸载挠度曲线。
结果
在基线时,RMO(50%应变)和Ni-Ti(150%应变)组的NiTi基螺旋弹簧施加的载荷在99.8至245.1 gf之间变化。在50%和150%应变亚组的每个时间点都观察到了虽小但具有统计学意义的差异;一般来说,最高值和最低值分别记录在Ni-Ti组和镍钛诺组(所有,P <0.001)。只有镍钛诺螺旋弹簧组显示出可接受的超弹性阶段。应变和热循环并未显著改变任何螺旋弹簧的失活力。
结论
NiTi基闭合螺旋弹簧可能没有超弹性阶段,长时间应变和热循环不会使其失活力产生临床相关改变。
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