1·Secondly, the exciting force of the exciter is deduced.
推导双电动机同步振动激励力的数学表达式;
2·Investigates the method to measure exciting force of the vibratory motor.
探讨振动电机激振力的测试方法。
3·The effect of the nonlinearity on total wave exciting force and wave contour is discussed.
文中还就流动的非线性对物体的波浪扰动力和自由面波形的影响进行了讨论。
4·The result shows that the method of predicting exciting force at tooth put forward is effective.
结果表明。本文提出的预测单个轮齿起振力的方法是一种较有效的方法。
5·The gas exciting force caused by blade tip clearance may cause rotors unsteady under certain condition.
转子偏心引起的气流激振力在一定条件下可能诱发转子失稳。
6·The vibration problem of pile with variable sections and finite length under exciting force is studied.
以锥形桩为例,用能量法对变截面桩的屈曲问题进行了深入研究。
7·The software is developed for the vibration response to exciting force on defective piles in homogeneous soil.
针对瞬态激振条件下均质土中桩存在缺陷的定解问题 ,研制了分析程序。
8·High utilization rate of the exciting force of vibration motor, low energy consumption, low noise, long service life.
振动电机的激振力利用率高、能耗小、噪音低、寿命长。
9·The mathematic model was a nonlinear oscillator driven by wave exciting force while the restoring force was exponential.
系泊运动的数学模型是一个具有指数回复力特性的非线性强迫振子,以波浪作用力为外激励。
10·Finally, the transfer relationship of dynamic exciting force between rotating and non-rotating machine tool spindles is proposed.
最后,提供了转与不转的机床主轴的动态激振力的转换关系。