[Study on the finishing line of the metal framework in terms of modal analysis].

T Miyake
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Abstract

The finishing line on a metal framework strengthens the mechanized coupling between the metal and the resin. However, due to extreme variations in metal thickness on the finishing line section, stress tends to concentrate in certain areas during function, making the finishing line an area with frequent denture breakage in a clinical setting. The author used modal analysis to clarify the manner in which stress concentrates on the finishing line. The activity observed was them used to determine the influence on the activity of the finishing line from factors such as differences in the finishing line angle, differences in the major connector and differences in the skeleton configuration. The following results were obtained. 1. Regarding the resonance frequency of the test materials, modes 6-7 were detected. 2. Displacement in the periphery of the finishing line and for the major connector in each mode was extremely small compared to the amount of downward pressure on the mucose and the labio-lingual displacement of natural teeth. 3. The activity of the test materials between 200Hz and 300Hz was the rigid body mode for the entire test material using as a fulcrum the rest on the side where vibration was applied. There was resonance detected in the test materials between 1 kHz and 6 kHz. 4. It is believed that there is less concentration of stress on a palatal bar when the angle of the finishing line is an obtuse angle. 5. It was difficult to determine any effect on activity due to the difference in the angle of the finishing line on a palatal bar, lingual bar and lingual plate. 6. The skeleton configuration was more bended the lattice type than the ladder type.

[基于模态分析的金属框架终点线研究]。
金属框架上的终点线加强了金属和树脂之间的机械耦合。然而,由于终点线部分金属厚度的极端变化,在使用过程中应力往往集中在某些区域,使得终点线成为临床环境中假牙断裂的常见区域。作者运用模态分析阐明了应力集中在终点线上的方式。观察到的活度被用来确定终点线活度的影响因素,如终点线角度的差异,主要连接器的差异和骨架结构的差异。得到了以下结果:1. 对于测试材料的共振频率,检测到6-7模态。2. 与自然牙的黏膜向下压力和唇舌位移相比,在每一种模式下,终点线外围和主要接头的位移都非常小。3.测试材料在200Hz和300Hz之间的活动是整个测试材料的刚体模式,使用作为支点的其余部分在施加振动的一侧。在1 kHz和6 kHz之间的测试材料中检测到共振。4. 我们认为,当终点线的角度为钝角时,腭杆上的应力集中较少。5. 由于终点线在腭杆、舌杆和舌板上的角度不同,很难确定对活动的任何影响。6. 骨架结构更弯曲的格子型比梯子型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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