Normal displacements in non-Coulomb friction conditions during fretting

Hintikka Jouko; Lehtovaara Arto; Mantyla Antti

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Normal displacements in non-Coulomb friction conditions during fretting

机译：微动过程中非库仑摩擦条件下的法向位移

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Non-Coulomb friction may occur in gross sliding fretting conditions, in which the tangential force increases as the fretting movement approaches its extreme position and produces 'hooked' fretting loops. Uncertainties in frictional behaviour make the design of highly loaded contacts against fretting a challenging task. Experiments were made with quenched and tempered steel, and cyclic normal displacements were discovered during non-Coulomb friction conditions. Normal displacement and non-Coulomb friction were caused by tangential fretting scar interactions between protrusions and depressions formed by material transfer. Tangential interlocking leads to inclined sliding conditions, which produce loading components in both tangential and normal directions; this explains most non-Coulomb friction. (C) 2015 Elsevier Ltd. All rights reserved.

机译：非库仑摩擦可能发生在总体滑动微动条件下，其中，当微动运动接近其极限位置时，切向力会增大，并产生“钩住”的微动环。摩擦性能的不确定性使得设计高负荷的触头免于微动是一项艰巨的任务。使用调质钢进行了实验，在非库仑摩擦条件下发现了循环法向位移。法向位移和非库仑摩擦是由材料转移形成的凹凸之间的切线微动疤痕相互作用引起的。切线互锁会导致倾斜的滑动状态，从而在切线方向和法线方向上产生载荷分量;这解释了大多数非库仑摩擦。（C）2015 Elsevier Ltd.保留所有权利。

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《Tribology International》 |2016年第null期|共7页
作者
Hintikka Jouko; Lehtovaara Arto; Mantyla Antti;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Fretting; Friction; Wear;

机译：微动;摩擦;磨损;
入库时间 2022-08-18 19:44:06

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1. Normal displacements in non-Coulomb friction conditions during fretting [J] . Hintikka Jouko, Lehtovaara Arto, Mantyla Antti Tribology International . 2016,第Null期

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机译：对金属-金属接头的机械微动和微动疲劳的基本机理进行了研究，重点研究了摩擦和摩擦诱导应力的影响。
6. Evaluation and Description of Friction between an Electro-Deposited Coating and a Ceramic Ball under Fretting Condition [O] . Kyungmok Kim 2015

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7. Derivation of a wear scar geometry-independent coefficient of friction from fretting loops exhibiting non-Coulomb frictional behaviour [O] . Jin X., Sun W., Shipway P.H. 2016

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Normal displacements in non-Coulomb friction conditions during fretting

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