1) The wheels rubbed together.
轮子同时摩擦。
2) friction wheel
摩擦轮
1.
Research on strength of friction wheel of mine hoist based on ANSYS;
基于ANSYS的矿井提升机摩擦轮强度研究
2.
Research on the influence law of strength affected by the structure of friction wheel;
摩擦轮结构对强度影响规律的研究
3.
Pushing-system is designed in this paper which is based on friction wheel transfer for automatically pushing slim line-shape sensor.
介绍了一种利用摩擦轮作为传动部件来推进细径线状传感器的自动推进系统,传感器被夹持在两摩擦轮凹槽之间,依靠摩擦轮和传感器表面之间的摩擦力,利用摩擦和挤压的方式介入光纤光栅传感器。
4) Friction Gear
摩擦轮
1.
Basing on the analysis of the forces on the polymer wire by Fused Deposition Modeling (FDM), a grooved friction gear was suggested for getting a greater force of the driving friction gear.
文中主要通过分析送丝驱动摩擦轮的结构 ,提出从动轮上的摩擦力可以忽略不记 ,同时提出在摩擦轮上开设V形卡槽的做法 ,并分析V形卡槽角度的大小对送丝驱动力的影响 ,提出卡槽角度的范围 ,寻求能够获得较大送丝驱动力的卡槽角度。
5) wheel/rail friction
轮轨摩擦
1.
Temperature rise and thermal stress due to wheel/rail friction play an important role in the failure of wear,flatting and checking.
结果表明:所采用的接触算法能够求解二维轮轨全制动工况下的热接触问题;轮轨摩擦热效应只存在于表层,其影响随着深度增加而减小;轮轨的相对滑动速度越高,其热效应越明显。
2.
The temperature rise and thermal stress due to wheel/rail friction play an important role in such failure.
本论文根据轮轨间作用特点,从轮轨摩擦热响应的角度对轮轨关系作了研究。
6) friction disk wheel
摩擦盘轮
1.
Because the stepless gearshift mechanism with two cone wheels and a friction disk wheel has such advantages as transmission being stable, low noise, simple configuration, various forms and avoidable damage of elements with overload sliding, it has been widely used in actual practice, especially in precision machines and instruments.
由于锥轮—摩擦盘轮—锥轮无级变速传动机构(简称锥轮变速机构)具有传动平稳、噪音很小、结构简单、过载打滑(可避免部件受损)、形式多样等优点,所以在实际传动中,特别是在精密机械与仪器中得到了广泛的应用[1],然而至今尚未见到计算锥轮变速机构传动比的专用公式。
补充资料:轮子
1.车辆或机械上能够旋转的圆形的部件。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条