本文利用室内土槽台车模拟行驶过程中轮胎受路面激励情况,试验研究了6.00-12驱动轮胎的动刚度特性。
The dynamic stiffness characteristics of tire 6.00-12 has been studied with the simulation of running tire vibration excited by the ro. ad, by means of the indoor soil bin tire tester.
当系统发生粘滑运动时,系统响应随激励速度、系统刚度及阻尼的变化而呈周期、拟周期及混沌运动交替变化的形式。
When system is in stick-slip motion, the system response can be periodic, quasi-periodic and chaos with the change of pulling velocities, system stiffness and viscous.
通过算例计算,研究了隔振效果,以及支座水平刚度、外激励频率与生活模块响应的关系。
Finallyit studies isolation efficiency, the relations are obtained among level stiffness of bearing, ocean exciting frequency and maximum response of accommodation module.
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