| 1. | Efforts have been made in the present thesis
压电传感是通过压电传感器来实现的。 |
| 2. | Finite element design on cymbal - type piezoelectric transducer
钹型压电传感器的有限元设计 |
| 3. | Application on plasm viscosity detection with piezoelectric sensors
压电传感器在血浆粘度检测中的应用 |
| 4. | Non destructive testing . acoustic emission . coupling of piezoelectric sensors
无损检验.声音发射.压电传感器的连接件 |
| 5. | Measurement of volume displacement of vibration structure based on pvdf piezoelectric sensors
压电传感器测量振动结构体积位移 |
| 6. | Finite element modeling of moderately thick composite plate with piezoelectric sensors and actuators
含压电传感器和驱动器的复合材料中厚板有限元分析 |
| 7. | A topological optimal approach for placements of distributed piezoelectric sensor actuator for vibration control of intelligent structures
智能结构振动控制中压电传感器与执行器位置的拓扑优化 |
| 8. | The paper also analyzes the main factor influents the performance of piezoelectric sensor and the stick arts should be noticed in practice
还分析了影响压电传感器性能的主要因素,和在实际应用中应该注意的粘贴技术。 |
| 9. | 5 . an optimized piezoelectric quartz crystal sensor array has been designed and assembled by using five individual vibration electrical circuits
采用5个单独的振荡电路,设计并组装了一种具有优化电路的压电传感器阵列装置。 |
| 10. | Piezoelectric sensors and actuators are adhered to the base material directly , and compose the active vibration control system along with the single chip
压电传感器和驱动器直接粘贴在母体材料上,和单片机控制系统一起构成了压电式主动减振智能结构。 |
