润滑与密封
潤滑與密封
윤활여밀봉
LUBRICATION ENGINEERING
2015年
6期
55-59
,共5页
宋国锋%白少先%彭旭东%盛颂恩
宋國鋒%白少先%彭旭東%盛頌恩
송국봉%백소선%팽욱동%성송은
混合润滑%表面织构%粗糙度%摩擦特性%润滑状态
混閤潤滑%錶麵織構%粗糙度%摩抆特性%潤滑狀態
혼합윤활%표면직구%조조도%마찰특성%윤활상태
mixed lubrication%surface texture%roughness%friction performance%lubrication regimes
基于平均流量模型和微凸体接触模型,研究混合润滑状态下织构表面的摩擦特性,通过数值求解得到Stri?beck曲线,分析法向载荷、润滑油黏度、表面粗糙度、方向因子和倾斜角对摩擦因数及名义摩擦副间隙等摩擦性能参数的影响规律。结果表明:混合润滑条件下,随着载荷的减小或润滑油黏度的增大,摩擦因数减小,名义摩擦副间隙增大,混合润滑转变为流体润滑时的临界转速降低;随着表面粗糙度的增大,摩擦因数和名义摩擦副间隙均增大,临界转速升高;随着倾斜角的减小或方向因子的增大,摩擦因数减小,名义摩擦副间隙增大,并且倾斜角越小,临界转速越低。
基于平均流量模型和微凸體接觸模型,研究混閤潤滑狀態下織構錶麵的摩抆特性,通過數值求解得到Stri?beck麯線,分析法嚮載荷、潤滑油黏度、錶麵粗糙度、方嚮因子和傾斜角對摩抆因數及名義摩抆副間隙等摩抆性能參數的影響規律。結果錶明:混閤潤滑條件下,隨著載荷的減小或潤滑油黏度的增大,摩抆因數減小,名義摩抆副間隙增大,混閤潤滑轉變為流體潤滑時的臨界轉速降低;隨著錶麵粗糙度的增大,摩抆因數和名義摩抆副間隙均增大,臨界轉速升高;隨著傾斜角的減小或方嚮因子的增大,摩抆因數減小,名義摩抆副間隙增大,併且傾斜角越小,臨界轉速越低。
기우평균류량모형화미철체접촉모형,연구혼합윤활상태하직구표면적마찰특성,통과수치구해득도Stri?beck곡선,분석법향재하、윤활유점도、표면조조도、방향인자화경사각대마찰인수급명의마찰부간극등마찰성능삼수적영향규률。결과표명:혼합윤활조건하,수착재하적감소혹윤활유점도적증대,마찰인수감소,명의마찰부간극증대,혼합윤활전변위류체윤활시적림계전속강저;수착표면조조도적증대,마찰인수화명의마찰부간극균증대,림계전속승고;수착경사각적감소혹방향인자적증대,마찰인수감소,명의마찰부간극증대,병차경사각월소,림계전속월저。
Tribological properties of textured surface were studied based on the mixed lubrication model taking into ac?count the effect of surface roughness and asperity contact.Stribeck curves were obtained and the influences of load,lubri?cant viscosity,roughness on friction performance were analyzed by numerical simulation.The effects of slender ratio and in?clination angle were also considered in the simulation.Results show that when load is small or lubricant viscosity is large, friction coefficient in mixed lubrication and critical rotation speed for the transition from mixed lubrication to hydrodynamic lubrication are low,and nominal clearance is large.When surface roughness is large,friction coefficient,nominal clearance and critical rotation speed are large.When inclination angle is small or slender ratio is large,friction coefficient is low,and nominal clearance is large.Critical rotation speed is observed to decrease when inclination angle is decreased.