A dynamic photoelastic method is a very effective measuring technique for the stress distribution of the vibrating quartz resonators because the stress distribution is measured directly. When this method was applied to observe stress distributions of BT cut quartz resonators, many interesting results were obtained. In the present paper, stress distributions of the NS-GT cut quartz crystal resonators are measured experimentally by this method when the resonators are vibrating in the resonant frequency. Vibration modes of the NS-GT cut resonators are estimated with experimental data of stress distributions. This experiment for the NS-GT cut quartz crystal resonators has exposed existence of an asymmetrical mode of vibration at the resonant frequency and magnitude of asymmetrical modes are in proportion to a thickness of the resonator. This asymmetrical mode of resonant vibration has been analyzed by the finite element simulation, but we could not give convincing proofs until this experiment. The finite element simulation and the result of this experiment go to show that asymmetry modes at the resonant vibration are caused by elastic stiffness constant C/sub 16/ of the NS-GT cut quartz crystal resonator. This constant c/sub 16/ is dependent upon thickness of the resonator.
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机译:动态光弹性方法是一种用于测量振动石英谐振器应力分布的非常有效的技术,因为应力分布是直接测量的。当该方法用于观察BT切割石英谐振器的应力分布时,获得了许多有趣的结果。在本文中,当共振器以共振频率振动时,通过这种方法实验性地测量了NS-GT切割石英共振器的应力分布。利用应力分布的实验数据估计了NS-GT切谐振器的振动模式。用于NS-GT切割石英晶体谐振器的该实验暴露了在谐振频率处存在不对称振动模式,并且不对称模式的大小与谐振器的厚度成比例。共振振动的这种非对称模式已经通过有限元模拟进行了分析,但是直到这个实验我们才能给出令人信服的证据。有限元模拟和实验结果表明,共振振动的不对称模式是由NS-GT切割石英晶体共振器的弹性刚度常数C / sub 16 /引起的。该常数c / sub 16 /取决于谐振器的厚度。
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