现代制造工程
現代製造工程
현대제조공정
MODERN MANUFACTURING ENGINEERING
2010年
3期
21-24,72
,共5页
混合润滑%粗糙度%表面纹理%摩擦力
混閤潤滑%粗糙度%錶麵紋理%摩抆力
혼합윤활%조조도%표면문리%마찰력
mixed lubrication%roughness%surface texture%friction
在往复式试验机上研究实际加工表面球-盘式接触混合润滑摩擦特性,比较采用不同黏度润滑油光滑接触摩擦力的大小.针对表面粗糙度幅值和纹理对摩擦行为的影响进行研究,结果表明,混合润滑时较高黏度润滑油的摩擦力较小;表面粗糙度幅值在混合润滑时对摩擦力影响较大,且随速度增加而增强,边界润滑时影响很小.与纵向纹理相比,横向纹理表面的摩擦力较小且稳定,低速时这种差别更加明显.
在往複式試驗機上研究實際加工錶麵毬-盤式接觸混閤潤滑摩抆特性,比較採用不同黏度潤滑油光滑接觸摩抆力的大小.針對錶麵粗糙度幅值和紋理對摩抆行為的影響進行研究,結果錶明,混閤潤滑時較高黏度潤滑油的摩抆力較小;錶麵粗糙度幅值在混閤潤滑時對摩抆力影響較大,且隨速度增加而增彊,邊界潤滑時影響很小.與縱嚮紋理相比,橫嚮紋理錶麵的摩抆力較小且穩定,低速時這種差彆更加明顯.
재왕복식시험궤상연구실제가공표면구-반식접촉혼합윤활마찰특성,비교채용불동점도윤활유광활접촉마찰력적대소.침대표면조조도폭치화문리대마찰행위적영향진행연구,결과표명,혼합윤활시교고점도윤활유적마찰력교소;표면조조도폭치재혼합윤활시대마찰력영향교대,차수속도증가이증강,변계윤활시영향흔소.여종향문리상비,횡향문리표면적마찰력교소차은정,저속시저충차별경가명현.
Due to shortage of energy supply and worsening environment,friction reduction is an urgent subject of tribology,a longterm attempt has been done to reduce or control friction by design and machining of surface topography.However,there is a difficulty in understanding mechanism of topography effects on friction behaviors.Friction performances of machined surface are studied in Universal Material Tester(UMT).All tests are conducted between a ball and a disk.At first,the magnitude of friction is compared in smooth contacts lubricated by the oils of different viscosity.And then the influences of roughness amplitude and surface texture on friction behaviors are investigated.The experimental results show,the higher viscosity lubricant would give rise to the lower friction in mixed lubrication regime.Roughness amplitude imposes a strong influence on friction in mixed lubrication regime,and the effect gets stronger with increasing speed,but less effect in boundary lubrication.Compared with longitudinal texture,transverse texture is lower and yield small fluctuations in friction,especially at the low speed.