By changing the cross sectional radius decay coefficient of the exponential metal horns, the longitudinal and torsional vibrations in the transducer could resonate at the same resonance frequency.
通过改变换能器前后指数型盖板的半径减编系数,得出了换能器中纵向与扭转两种振动模式同频共振的条件。
Based on mechanic equivalent circuit of the longitudinal ultrasonic horn, the resonance frequency and the amplitude magnification coefficient of three kinds of loaded horns are studied.
在纵振型变幅杆等效电路的基础上,研究了三类负载超声变幅杆的共振频率与放大系数。
By correcting the length of the metal slender rods, the simultaneous resonance of the longitudinal and flexural vibrations in the transducer is acquired.
通过修正金属细棒的长度和横截面积,实现了换能器中纵向振动与弯曲振动的同频共振。
Results The change relations between resonance frequencies and load of longitudinal-torsional ultrasonic motor were got.
结果得出了纵扭复合型超声马达谐振频率与负载的变化关系。
Resonance frequencies of the longitudinal and torsional ultrasonic motor were studied in this paper.
对夹心式纵扭复合型超声马达的共振频率进行了研究。
The resonance frequency equations for the longitudinal and flexural vibrations in the transducer are derived.
通过修正金属细棒的长度和横截面积,实现了换能器中纵向振动与弯曲振动的同频共振。
The non-single resonance characteristics appear by forming proper impedance matching layers on the radiative surface of longitudinal mode piezoelectric transducer.
在复合棒纵向换能器的辐射端加上适当材料的阻抗匹配层,可以使其工作在非单谐振状态下。
The non-single resonance characteristics appear by forming proper impedance matching layers on the radiative surface of longitudinal mode piezoelectric transducer.
在复合棒纵向换能器的辐射端加上适当材料的阻抗匹配层,可以使其工作在非单谐振状态下。
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