Meanwhile the change of the voltage by the change of the length will decrease when the thickness of the piezoelectric layer decrease.
压电传感器长度增加,输出电压也会有所增加,并且这一变化会随压电片的厚度减少而减小。
Simply flanking the piezoelectric layer with thin concentric layers of metal would not work because metals tend to have a low viscosity.
仅仅在两侧安放压电层和薄薄的同心金属层是起不了多大作用的,因为金属的粘度很低。
To consider the effect of bonding characteristics of the adhesives between the piezoelectric layer and the functionally graded ones, a linear spring layer model is adopted.
为了考虑中间压电层与上、下功能梯度层之间的粘结效果,采用线性弹簧模型以模拟界面性能。
State space formulations are developed to study a simply supported hybrid beam consisting of two functionally graded material layers and an intermediate actuating or sensing piezoelectric layer.
为了考虑中间压电层与上、下功能梯度层之间的粘结效果,采用线性弹簧模型以模拟界面性能。
An active and passive hybrid damping control manner with lower voltage is proposed through both multiple piezoelectric patches and constrained damping layer for suppressing structural vibration.
提出一种用多层压电片和约束阻尼层在低控制电压下进行结构振动的杂交阻尼控制方式。
Disadvantages because of applying piezoelectric wafers in piezoelectrics self-diagnosed system can be got rid of by piezoelectrics smart layer.
压电智能夹层可以有效地解决压电自诊断系统中直接使用压电片引起的弊端。
In this paper, the tension bending coupling model is presented by virtual work principle, the effect of the bonding layer between beam and piezoelectric actuator is considered in the analysis.
利用虚功原理,建立了单面粘贴有压电致动器的梁结构的拉伸-弯曲耦合模型,在分析过程中,考虑了梁与致动器之间粘贴层的影响。
The piezoelectric actuators are pasted to main structure by the bonding layer to transfer the strain and to achieve the control of the structure.
压电驱动器应用时要通过胶粘剂与主体结构固结,达到传递应变,实现控制结构变形的目的。
The pattern region of each layer constituting at least the piezoelectric element (300) is covered by an insulation membrane (100) made of inorganic insulation material.
构成至少压电元件(300)的各层的图案区域被由无机绝缘材料制成的绝缘膜(100)覆盖。
The formula of actuating force produced by multiple piezoelectric patches and the control equations of multi layer beam are derived based on the constitutive relations of different materials.
基于各种材料的本构关系,导出了多层压电片作用在梁结构上的力和所施加的电压以及结构的运动之间的耦合关系和系统的控制微分方程。
It makes piezoelectric ceramic film by casting method or web printing technique, etc., and makes medium electrode layer by web printing technique, etc.
该致动器的多层膜压电元件由流延法或丝网印刷工艺等制作压电陶瓷膜,采用丝网印刷工艺等制作中间电极层。
It makes piezoelectric ceramic film by casting method or web printing technique, etc., and makes medium electrode layer by web printing technique, etc.
该致动器的多层膜压电元件由流延法或丝网印刷工艺等制作压电陶瓷膜,采用丝网印刷工艺等制作中间电极层。
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