CAJ | 학술논문

将压电陶瓷埋入混凝土构成压电埋入式混凝土机敏模块，利用压电陶瓷的逆压电效应实现对混凝土结构的实时健康检测。为保证接收信号质量，采用具有压电陶瓷谐振频率的周期脉冲作为激励。而不同厚度的压电陶瓷具有不同的谐振频率，对于不同厚度的压电陶瓷，激励频率的选择对接收端的超声波信号有较大影响。通过Ansys软件仿真研究压电陶瓷谐振频率随厚度的变化规律，模拟混凝土中压电陶瓷振动辐射的超声波，分析压电陶瓷厚度对辐射超声波的影响。研究表明：压电陶瓷的振幅随厚度的增加逐渐减小；压电陶瓷的厚度小于1 mm时，最大振幅对应的谐振频率变化趋势出现多个拐点；厚度大于1 mm时，谐振频率随着厚度的增加而减小，辐射超声波中心点声压随厚度的增加而增大。
장압전도자매입혼응토구성압전매입식혼응토궤민모괴，이용압전도자적역압전효응실현대혼응토결구적실시건강검측。위보증접수신호질량，채용구유압전도자해진빈솔적주기맥충작위격려。이불동후도적압전도자구유불동적해진빈솔，대우불동후도적압전도자，격려빈솔적선택대접수단적초성파신호유교대영향。통과Ansys연건방진연구압전도자해진빈솔수후도적변화규률，모의혼응토중압전도자진동복사적초성파，분석압전도자후도대복사초성파적영향。연구표명：압전도자적진폭수후도적증가축점감소；압전도자적후도소우1 mm시，최대진폭대응적해진빈솔변화추세출현다개괴점；후도대우1 mm시，해진빈솔수착후도적증가이감소，복사초성파중심점성압수후도적증가이증대。
Using the inverse piezoelectric effect of piezoelectric ceramic which is embedded in concrete,we can make the real-time detection for the health of concrete structure. To guarantee the quality of received signal at the receiver, the periodic pulse with the resonant frequency of piezoelectric ceramic is used to inspire the piezoelectric ceramic. But the piezoelectric ceramic with different thickness has different resonant frequency. Using Ansys software the influence of thickness of piezoelectric ceramic to the resonant frequency has been studied. Making the simulation research of the ultrasonic beamed by piezoelectric ceramic the influence of thickness of piezoelectric ceramic to ultrasonic has been researched too. Experiments showed that the spectrum of resonant frequency has several inflection points when the thickness of piezoelectric ceramic is less than 1 mm. For the piezoelectric ceramic,the thickness of which is greater than 1 mm,if the thickness keeps increasing,the maximum vibration amplitude of piezoelectric ceramic decreased,and the resonant frequency also decreases,using the resonant frequency of piezoelectric,with different thickness,to inspire the corresponding piezoelectric ceramic,the maximum sound pressure of ultrasonic at the point of center beamed by piezoelectric ceramic will increase with increasing the thickness of piezoelectric ceramic.