1) pre-sliding friction
预滑动摩擦
1.
A few of mathematical models describing pre-sliding friction were introduced mainly,and the characteristics were discussed individually.
预滑动摩擦是机械系统中具有相对运动的接触面发生粘着时的一个重要摩擦现象,其建模的恰当与否直接关系到系统的定位精度、动力学特性以及控制补偿。
2) sliding friction
滑动摩擦
1.
A spherical cavity expansion-sliding friction calculation model on penetration of pressed-in piles;
静压桩贯入地基的球孔扩张-滑动摩擦计算模式
2.
Experimental study on sliding friction between pile and soil;
桩-土滑动摩擦的试验研究
3.
Study on the thermal-structural couple field of sliding friction process based on ANSYS
基于ANSYS的滑动摩擦热结构耦合分析
3) frictional sliding
摩擦滑动
1.
The mechanical behavior of frictional sliding of rocks can be described well by rate- and state-dependent friction laws.
岩石摩擦滑动的力学行为能够很好地用速率和状态依赖性摩擦本构关系来描述。
4) preparatory displacement-slip friction
预位移滑动摩擦模型
5) dry sliding friction
干滑动摩擦
1.
The rule of dry sliding friction wear of vermicular iron was analyzed.
分析了蠕墨铸铁的干滑动摩擦磨损规律,研究了工况条件(速度,压力)、成分、组织对蠕墨铸铁干滑动摩擦学特性的影响,探讨了蠕墨铸铁摩擦表面三维形貌与摩擦表面温度特性,结果表明:蠕墨铸铁与球墨铸铁和灰铸铁相比具有最低的磨损率和最高的摩擦系数与最低的摩擦系数衰减量,适合于作为制动器材料。
2.
The dry sliding friction and wear properties of the composite layer were studied on MM200 friction wear testing machine.
采用消失模铸渗的方法在铸钢件表面制备了钒铬复合层,用MM200型摩擦磨损试验机研究了不同渗剂成分试样的干滑动摩擦磨损性能,并用扫描电镜观察了试样的磨损形貌,分析了复合材料的磨损机理。
6) sliding friction pairs
滑动摩擦副
1.
Experimental Study on the Influence of the Difference Oil - containing Paritcle Size on the Scuffing Resistant of Sliding Friction Pairs;
润滑油中磨屑尺寸对滑动摩擦副咬死性能影响的试验研究
2.
Experimental Study on the Scuffing Resistant of Sliding Friction Pairs;
滑动摩擦副抗咬死性能的试验研究
3.
The author has studied experimentally the scuffing resistant of sliding friction pairs by using T302 as additives in lubricating oils, and the experiment results show that this kind of additives can improve the oil lubricating and scuffing resistant.
通过对T302添加剂的润滑性能及抗胶合性能试验研究,发现T302添加剂能显著改善滑动摩擦副的抗胶合性能及润滑油的润滑性能,通过分析磨斑表面X射线衍射图谱(XPS),发现该种添加剂作用下,摩擦副表面形成了聚合物膜,使得摩擦力减小了,随着载荷的增大,添加剂在摩擦热产生高温作用下,部分原子如C、S同表面金属发生化学反应,生成了FeSO4,FeS等物质。
补充资料:滑动摩擦
相互接触的物体间发生相对滑动时,在接触面上发生的阻碍相对滑动的现象。滑动摩擦力的大小f跟接触面间的正压力n成正比。f=μn,式中比例系数μ叫做滑动摩擦系数,其值与接触面的材料、粗糙程度、干湿情况以及相对运动的速度等因素有关。
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