Pb ( Mn1/3Sb2/3 ) x ( Zn1/3Nb2/3) y ( Zr0.535 Ti0.465 ),1-x-yO3 ( PMZN) piezoelectric ceramics were fabricated, The effects of sintering temperature and heat-treatment time on properties wen discussed, the optimum pre...Pb ( Mn1/3Sb2/3 ) x ( Zn1/3Nb2/3) y ( Zr0.535 Ti0.465 ),1-x-yO3 ( PMZN) piezoelectric ceramics were fabricated, The effects of sintering temperature and heat-treatment time on properties wen discussed, the optimum preparation technology parameters were obtained. In this case, the ceramics have the highest electromechanical coupling coefficients and mechanical quality factor and the least dielectric loss. It is revealed that the PMZN piezo-ceramics material can be utilized for high-power ultrasound transducers.展开更多
An exact 3D analysis of free vibration of a piezoceramic hollow sphere submerged in a compressible fluid is presented in this paper. A separation method is adopted to simplify the basic equations for spherically isotr...An exact 3D analysis of free vibration of a piezoceramic hollow sphere submerged in a compressible fluid is presented in this paper. A separation method is adopted to simplify the basic equations for spherically isotropic piezoelasticity. It is shown that there are two independent classes of vibration. The first one is independent of the fluid medium as well as the electric field, while the second is associated with both the fluid parameter and the piezoelectric effect. Exact frequency equations are derived and numerical results are obtained.展开更多
A novel active vibration control technique on the basis of linearized piezoelectric actuators is presented. An experimental apparatus consisting of a cantilever beam to which are attached strain patches and piezoceram...A novel active vibration control technique on the basis of linearized piezoelectric actuators is presented. An experimental apparatus consisting of a cantilever beam to which are attached strain patches and piezoceramic actuators to be used for active vibration suppression is described. A dynamical model of the cantilever beam using Lagrange's equation and two coordinate systems are presented. Based on the Lyapunov's direct method, an active vibration controller with hysteresis compensation is designed. The controller is designed so that it guarantees the global stability of the overall system. The controller developed is assessed experimentally.展开更多
An experimental study of the response of a piezoceramic actuator set at the throat to a transonic diffuser is carried out by measuring wall static pressure fluctuations and by visualizing the flow field using schliere...An experimental study of the response of a piezoceramic actuator set at the throat to a transonic diffuser is carried out by measuring wall static pressure fluctuations and by visualizing the flow field using schlieren technique. The visualized flow fields are captured with a digital still camera and a digital high speed video camera. The piezo ceramic actuator is attached at the throat of the diffuser and driven by sinusoidal amplified voltage signals. The diffuser used in this experiment is circular arc half nozzle with the height h* and width w of 3 mm and 25 mm, respectively. The blockage factor of the piezoceramic actuator to the diffuser throat is 9.2% assuring the effect of change in the throat area rather than the boundary layer disturbances. The piezoceramic actuator is driven at the frequency of 100 Hz, 200 Hz, and 300 Hz and its amplitude is about 1 mm. It is found that the wall static pressure fluctuations and the behavior of the shock wave clearly correspond to the vibration of the piezo ceramic actuator for all the frequency ranges whereas the averaged shock position remains almost unchanged. All the results mentioned above suggest that driving the piezo ceramic actuator at the diffuser throat can be one of the promising techniques to control unsteady transonic diffuser flow.展开更多
A novel 4 by 4 array of electromagnetic micro-actuators operating on the principle of voice-coil actuators is presented. The intended application of the array is dynamic tactile stimulation, where multiple actuators g...A novel 4 by 4 array of electromagnetic micro-actuators operating on the principle of voice-coil actuators is presented. The intended application of the array is dynamic tactile stimulation, where multiple actuators generate an illusion of touching a moving pattern. In comparison to earlier designs [1-3], the device has smaller dimensions of 2.28 mm in diameter and 7 mm in length, which allowed its use in an array capable of hosting up to a 5 by 5 set of actuators with a rectangular shape covering an area of 18 mm by 21 mm. Using finite element analysis of several conceptual designs of actuators [1,4,5], it was established that the voice-coil type device (where the coil is the moving part) has most beneficial characteristics for the envisioned application. These include sufficient force over a relatively large distance, allowing tactile stimulation of surfaces with irregular shape, fast response, and small foot-print that matches the density of the tactile sensory neurons in the human finger. Eexperimental evaluation of the operation of neighboring actuators spaced at 3.3 mm apart, indicates that there is no crosstalk between the actuators. The resulting density exceeds that of previously reported alternative designs based on moveable permanent magnets [4,6]. Static force measurement indicate that each micro-actuator can produce at least 26 mN of repulsive force over a stroke of 2100 μm with a peak force of 34 mN. The driving circuit operates at 13.5V and generates a vibration frequency of up to 265 Hz without significant change of the force-displacement characteristics. In the higher frequency range (above 100 Hz) the actuator provides at least 15 mN of force over a slightly reduced stroke of 2300 μm, and a peak force of 21 mN. All of the above parameters meet the required threshold values of tactile human perception known from [2] and [3].展开更多
采用固相反应法制备了Ca_(0.94)Ce_(0.06)Bi_(4)Ti_(4-x)Nb_(x)O_(15)(CCBTN)铋层状高温压电陶瓷,研究了B位Nb掺杂对陶瓷晶体结构、微观形貌、介电、压电性能的影响规律。结果表明:制备的CCBTN陶瓷均具有单一的铋层状结构相,少量Nb掺杂...采用固相反应法制备了Ca_(0.94)Ce_(0.06)Bi_(4)Ti_(4-x)Nb_(x)O_(15)(CCBTN)铋层状高温压电陶瓷,研究了B位Nb掺杂对陶瓷晶体结构、微观形貌、介电、压电性能的影响规律。结果表明:制备的CCBTN陶瓷均具有单一的铋层状结构相,少量Nb掺杂有利于陶瓷压电常数及热稳定性能的提升。当Nb掺杂量x=0.06时,陶瓷具有最高的压电常数(d33=19.2pC·N^(-1)),是纯CBT陶瓷压电常数(d33=8 p C·N^(-1))的2.4倍,且退火至500℃时其压电常数仍保持室温值的90%以上,表现出较优异的热稳定性。同时,该陶瓷具有高的居里温度(Tc=769℃)、低的介电损耗(tanδ=0.65%)及高的电阻率(ρdc=2.0×10^(7)Ω·cm@500℃),是高温压电传感器制作的优异候选材料。展开更多
文摘Pb ( Mn1/3Sb2/3 ) x ( Zn1/3Nb2/3) y ( Zr0.535 Ti0.465 ),1-x-yO3 ( PMZN) piezoelectric ceramics were fabricated, The effects of sintering temperature and heat-treatment time on properties wen discussed, the optimum preparation technology parameters were obtained. In this case, the ceramics have the highest electromechanical coupling coefficients and mechanical quality factor and the least dielectric loss. It is revealed that the PMZN piezo-ceramics material can be utilized for high-power ultrasound transducers.
基金The project supported by the National Natural Science Foundation of China(No.19872060)
文摘An exact 3D analysis of free vibration of a piezoceramic hollow sphere submerged in a compressible fluid is presented in this paper. A separation method is adopted to simplify the basic equations for spherically isotropic piezoelasticity. It is shown that there are two independent classes of vibration. The first one is independent of the fluid medium as well as the electric field, while the second is associated with both the fluid parameter and the piezoelectric effect. Exact frequency equations are derived and numerical results are obtained.
文摘A novel active vibration control technique on the basis of linearized piezoelectric actuators is presented. An experimental apparatus consisting of a cantilever beam to which are attached strain patches and piezoceramic actuators to be used for active vibration suppression is described. A dynamical model of the cantilever beam using Lagrange's equation and two coordinate systems are presented. Based on the Lyapunov's direct method, an active vibration controller with hysteresis compensation is designed. The controller is designed so that it guarantees the global stability of the overall system. The controller developed is assessed experimentally.
文摘An experimental study of the response of a piezoceramic actuator set at the throat to a transonic diffuser is carried out by measuring wall static pressure fluctuations and by visualizing the flow field using schlieren technique. The visualized flow fields are captured with a digital still camera and a digital high speed video camera. The piezo ceramic actuator is attached at the throat of the diffuser and driven by sinusoidal amplified voltage signals. The diffuser used in this experiment is circular arc half nozzle with the height h* and width w of 3 mm and 25 mm, respectively. The blockage factor of the piezoceramic actuator to the diffuser throat is 9.2% assuring the effect of change in the throat area rather than the boundary layer disturbances. The piezoceramic actuator is driven at the frequency of 100 Hz, 200 Hz, and 300 Hz and its amplitude is about 1 mm. It is found that the wall static pressure fluctuations and the behavior of the shock wave clearly correspond to the vibration of the piezo ceramic actuator for all the frequency ranges whereas the averaged shock position remains almost unchanged. All the results mentioned above suggest that driving the piezo ceramic actuator at the diffuser throat can be one of the promising techniques to control unsteady transonic diffuser flow.
文摘A novel 4 by 4 array of electromagnetic micro-actuators operating on the principle of voice-coil actuators is presented. The intended application of the array is dynamic tactile stimulation, where multiple actuators generate an illusion of touching a moving pattern. In comparison to earlier designs [1-3], the device has smaller dimensions of 2.28 mm in diameter and 7 mm in length, which allowed its use in an array capable of hosting up to a 5 by 5 set of actuators with a rectangular shape covering an area of 18 mm by 21 mm. Using finite element analysis of several conceptual designs of actuators [1,4,5], it was established that the voice-coil type device (where the coil is the moving part) has most beneficial characteristics for the envisioned application. These include sufficient force over a relatively large distance, allowing tactile stimulation of surfaces with irregular shape, fast response, and small foot-print that matches the density of the tactile sensory neurons in the human finger. Eexperimental evaluation of the operation of neighboring actuators spaced at 3.3 mm apart, indicates that there is no crosstalk between the actuators. The resulting density exceeds that of previously reported alternative designs based on moveable permanent magnets [4,6]. Static force measurement indicate that each micro-actuator can produce at least 26 mN of repulsive force over a stroke of 2100 μm with a peak force of 34 mN. The driving circuit operates at 13.5V and generates a vibration frequency of up to 265 Hz without significant change of the force-displacement characteristics. In the higher frequency range (above 100 Hz) the actuator provides at least 15 mN of force over a slightly reduced stroke of 2300 μm, and a peak force of 21 mN. All of the above parameters meet the required threshold values of tactile human perception known from [2] and [3].
文摘采用固相反应法制备了Ca_(0.94)Ce_(0.06)Bi_(4)Ti_(4-x)Nb_(x)O_(15)(CCBTN)铋层状高温压电陶瓷,研究了B位Nb掺杂对陶瓷晶体结构、微观形貌、介电、压电性能的影响规律。结果表明:制备的CCBTN陶瓷均具有单一的铋层状结构相,少量Nb掺杂有利于陶瓷压电常数及热稳定性能的提升。当Nb掺杂量x=0.06时,陶瓷具有最高的压电常数(d33=19.2pC·N^(-1)),是纯CBT陶瓷压电常数(d33=8 p C·N^(-1))的2.4倍,且退火至500℃时其压电常数仍保持室温值的90%以上,表现出较优异的热稳定性。同时,该陶瓷具有高的居里温度(Tc=769℃)、低的介电损耗(tanδ=0.65%)及高的电阻率(ρdc=2.0×10^(7)Ω·cm@500℃),是高温压电传感器制作的优异候选材料。
