压电陶瓷具有许多优点,因而广泛应用于换能器中。
Piezoelectric ceramics have been widely used in transducers because of their many advantages.
特别对于水声换能器应用而言,压电陶瓷在大功率高静压力下的性能是人们十分关心的。
The properties of piezoelectric ceramics at high electric power and hydrostatic pressure are concerned for the application in underwater acoustic transducers.
本文对双向电脉冲激励压电陶瓷超声换能器进行实验研究。
Bidirectional electric pulse excitation of piezoelectric transducers for pulsed ultrasonic wave is investigated in this paper.
将金属与压电陶瓷物理复合的钹式换能器具有体积小的优点,使得其对于低频换能器设计具有重要意义。
Cymbal transducer as a result of composite of metal and piezoelectric ceramic has the less volume which is significant in application to low frequency transducer.
介绍压电陶瓷的物理特性,介绍有关换能器和基阵的性能参数和试验原理。
The physical property of piezoelectric ceramic; performance reference and empirical principle about transducer and array.
西德原装压电陶瓷换能器,输出强劲稳定。
West Germany Electro-Press ceramic transducer to ensure powerful power output.
对自由压电陶瓷片,组合电声换能器。 600W的超声清洗器。
The vibration modes and frequencies of a free piezoelectric ceramic plate, an electro-sound combination transducer, an ultrasonic cleaner of 600W.
介绍了压电陶瓷换能器产生和接收超声波的工作原理,当输入电压的频率为借振频率时,超声波在介质中产生的驻波最强。
The principle of producing and receiving ultrasonic wave with the piezoelectric ceramics transducer is introduced. Standing wave is strongest when voltage frequency is resonance.
针对压电陶瓷型换能器,进行了补偿设计。
The compensation techniques are used for piezoelectricity transducer.
本文设计了一种多谐振腔宽带换能器,采用径向极化的压电陶瓷圆管作为激励源,激发多个液腔的振动,以多模态耦合振动的方式来拓展带宽。
Multi-resonator broadband transducer is given in this paper. The transducer driven by radially poled piezoelectric cylinder achieves broadband transmission by coupling multiple fluid vibrations modes.
其优异的压电性能大大超过了现有压电陶瓷材料,特别适合于高效率、高灵敏度收发换能器的研制。
Its excellent electromechanical properties are superior to the piezoelectric ceramics. It is suit for the production of the underwater acoustic transducer and ultrasound transducer.
用压电陶瓷片直接制作这种换能器工艺比较复杂麻烦,形状受到了材料的制约,因此,在实际应用中受到了很大的限制。
Manufactured this kind transducer with the piezoelectricity is complex in techniques, the shape restricted by material, and much fetter in it application.
用压电陶瓷片直接制作这种换能器工艺比较复杂麻烦,形状受到了材料的制约,因此,在实际应用中受到了很大的限制。
Manufactured this kind transducer with the piezoelectricity is complex in techniques, the shape restricted by material, and much fetter in it application.
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