| 1. | So it is more and more important to build dynamic model 所以建立压电主动构件的动力学模型显得尤为重要。 |
| 2. | The dynamic properties of the piezoelectric active member ca n ' t be neglected , especially in its area of resonance 压电主动构件本身的动力学特性是不可忽视的。特别对于其共振区更为突出。 |
| 3. | This new - active member includes a piezoelectric actuator , a micro - placement sensor to measure the output placement and output force 该主动构件由压电作动器、传感器等组成,具有输出位移和输出力的功能。 |
| 4. | The experimental results show that the piezoelectric active member tallies with the design demand and accords with the theoretical analysis on the whole 实验表明该主动构件符合设计要求,并与理论分析基本吻合。 |
| 5. | The composition of the intelligent active member and its operating mechanism are presented for aerospace adaptive - deployable structures 给出了智能主动构件的组成和工作原理。研制了一种用于自适应可展结构的新型智能主动构件。 |
| 6. | In this paper , a new intelligent active member was designed and manufactured , which can sense its location and force to adaptively control and improve performance of deployable structures 本文为自适应调节和改善可展结构动力学性能,研制了一种具有传感和作动双重功能的智能主动构件。 |
| 7. | A new type piezoelectric active member adopted in the thermo - modality control of intelligent structure was designed and manufactured . and the relations between its working properties , output displacement , output force , etc . and various influence factors were studied through experiments 设计制造一种可用于智能结构热动态控制的新型压电主动构件,并通过实验研究其工作性能:输出位移、输出力特性与各种影响因素之间的关系。 |
| 8. | The operation properties of the piezoelectric active member , such as its output displacement , output force and the relative problems , are experimentally studied in this paper . the experiment demonstrated the non - linear relation for the mechanical outputs to the applied voltage of the active member 本文通过实验研究了压电主动构件的工作性能、输出位移、输出力及其相关问题,验证了压电主动构件的力学输出量与其驱动电压的非线性关系。 |