| 1. | Vibration control of a smart cantilever beam
智能悬臂梁的振动控制 |
| 2. | Dynamic monitoring and damage detection of reinforced concrete beams
钢筋混凝土简支梁的振动损伤识别 |
| 3. | Active vibration control of a cantilever beam in non - inertial system
非惯性系下柔性悬臂梁的振动主动控制 |
| 4. | Vibration analysis of electrorheological sandwich beams with transversely compressible core
横向可压缩电流变夹层梁的振动特性 |
| 5. | Vibration of beam
梁的振动 |
| 6. | Numerical simulation and experimental investigation on vibration control of a rotating flexible beam
旋转柔性梁的振动控制仿真及实验探讨 |
| 7. | Active vibration control for a cantilever beam was studied based on the combination between finite element analysis ( pea ) and modal control
摘要结合有限元分析方法与模态控制来抑制悬臂梁的振动。 |
| 8. | The result demonstrates that the algorithm of mixed iterative learning control can suppress the vibration of the model by 15 %
仿真及试验结果均表明:迭代学习控制算法在对悬臂梁的振动抑制上具有良好的效果。 |
| 9. | Negative mode velocity feedback was adopted and the control voltage applied to each piezoelectric element acting as actuator was calculated to control the vibration of the beam
采用模态速度负反馈进行回馈控制,以此计算出各个作为致动器的压电片的控制电压,以抑制悬臂梁的振动。 |
| 10. | Simulation results show that the vibration of the beam can be suppressed rapidly by applying voltage to the piezoelectric patches displaced in this way , and single mode vibration and multi - mode vibration can be controlled simultaneously
通过算例进行数值仿真,结果表明,以此方法布置压电片和输人控制电压,能迅速抑制悬臂梁的振动,可单独或同时控制几阶模态振动。 |
