1) radial fretting
径向微动
1.
Tests of radial fretting were carried out under the varied maximal imposed normal loads from 100 N to 300 N.
在径向微动试验机上,采用球-平面接触方式,对新鲜人股骨密质骨的轴向断面进行了不同法向载荷(Fn=100~300 N)条件下的径向微动体外试验。
2.
The results show that the coating had better wear resistance under radial fretting.
结果表明 :二硫化钼粘结固体润滑涂层具有良好的抗径向微动损伤性能 ;切向微动条件下无混合区存在 ,涂层损伤强烈依赖于位移幅值 ,并伴随MoS2 的氧化 ;径向微动损伤呈现切向微动部分滑移区的特
3.
The combination of radial and tangential fretting was realized by changing the inclined angle of specimens on a newly developed radial fretting tester.
在新型径向微动试验装置上 ,改变试样的倾斜角度 ,实现了径向微动和切向微动的复合 。
2) radialpertur bation
径向微扰
3) radial micro-displacement
径向微位移
1.
The control and real-time feedback of boring cutter's radial micro-displacement,is the key on the machining process for non-circular pin hole of piston,and also difficulty.
活塞异形销孔加工过程中,镗刀径向微位移的控制与实时反馈是重点,也是难点。
4) non-radial perturbation
非径向微扰
5) radial run-out
径向跳动
1.
Main causes of leading roller winding,radial run-out,were discussed on both theoretical and practical bases.
从理论和实践两方面阐述了造成辊子弯曲即径向跳动的主要原因,从材料到辊子结构,多方面提出了最佳设计方案。
2.
This article introduces relation, substitution and implement of radial run-out tolerance and axiality tolerance with legend and production process.
径向跳动公差与同轴度公差是形位公差项目中常用的位置公差。
6) radial nanofretting
径向纳动
1.
Using a nanoindenter,the radial nanofretting behaviors of single crystal copper and Si(110) were studied under various peak indentation forces.
采用纳米压痕仪研究了单晶铜和单晶硅径向纳动的运行特点和损伤过程。
2.
The increase in both indentation force and the number of nanofretting cycles induced the radial nanofretting damage of samples.
采用纳米压痕仪和曲率半径为20μm的金刚石球形压头研究了40Cr基体和CrNx薄膜的径向纳动行为,并探讨其损伤机制。
3.
Radial nanofretting is the primary running mode of nanofretting, and it widely exists in structure beam, films, hinge, micro-bearing, micro-spring, and other main components of microelctromechanical systems (MEMS), may become a key tribolo.
而径向纳动是纳动的主要运行方式,广泛存在于微机电系统的结构梁、薄膜、铰链、微型轴承及微型弹簧等主要构件中。
补充资料:动微
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