机构地区:[1]中国民用航空飞行学院航空工程学院,广汉618307
出 处:《中国表面工程》2024年第3期134-144,共11页China Surface Engineering
基 金:国家自然科学基金(52105132,52205239);四川省科技计划(2022NSFSC1903,2022NSFSC1983);民航飞行技术与飞行安全重点实验室自主研究项目(FZ2022ZZ01);四川省通用航空器维修工程技术研究中心资助课题(GAMRC2021YB14)。
摘 要:PTFE/Kevlar织物材料具有优异自润滑性能,在航空关键部件中广泛应用,但紫外辐照对其影响规律尚不清晰。针对航空器飞行强紫外线暴露的特点,聚焦紫外辐照对航空常用PTFE/Kevlar编织关节轴承衬垫自润滑材料摩擦学性能的影响规律研究。对不同紫外辐照时长的PTFE/Kevlar织物衬垫材料进行往复摩擦试验,并采用多种表征手段对其宏观、微观损伤形貌以及化学状态进行分析。结果表明:PTFE/Kevlar织物衬垫材料的磨损程度随着紫外辐照时间的增加呈现出先降低后升高的趋势,短时辐照(T=100 h和200 h)的磨损最轻微,摩擦损失体积和磨痕最大深度仅为未辐照和长时辐照(T=300 h和500h)的2/3;紫外辐照后,衬垫材料与GCr15轴承钢球之间的磨损行为变化表现为PTFE纤维塑性变形和转移膜形成能力的下降,其主要原因是PTFE纤维结晶度的降低;衬垫材料的磨损机理随辐照时间的延长由疲劳磨损和粘着磨损向磨粒磨损为主转变。研究成果可为PTFE/Kevlar织物衬垫型自润滑材料在紫外辐照后的磨损性能跟踪和研制优化提供参考。PTFE/Kevlar fabric liner type self-lubricating materials,extensively utilized in aircraft,face the challenge of enduring strong ultraviolet(UV)radiation when operating at high altitudes throughout the year.Simultaneously,these self-lubricating joint bearing liner materials,used externally on aircraft,encounter high-intensity friction conditions along with substantial UV exposure.Despite this,there is a paucity of studies focusing on the wear behavior of PTFE/Kevlar fabric liners following UV irradiation.This gap highlights the importance of investigating the impact of intense UV exposure on the wear characteristics of self-lubricating plain bearing liners.In this paper,the UV aging tester model HZ-2008A was employed to subject PTFE/Kevlar fabric liner materials to UV radiation at an intensity of 1 W/m2 for varying durations.Post-irradiation,the liner samples underwent reciprocating friction testing using the MXW-01 tester.To examine the macroscopic damage morphology of the abrasion marks on the liner material,a stereo microscope(SM)and a three-dimensional optical profiler(3D-OM)were utilized.Furthermore,the micro-morphology of surface damage and chemical state within the abrasion damage area were analyzed using a field emission scanning electron microscope(SEM)and energy dispersive X-ray spectroscopy(EDS).Reflectance micro-infrared spectroscopy(ATR)was applied to analyze the microstructure of PTFE before and after UV irradiation.The study reveals that the wear behavior of PTFE/Kevlar fabric liners against GCr15 bearing steel balls through 5,000 cycles of reciprocating friction initially decreases and then increases with prolonged UV irradiation.Notably,the liners subjected to short-term irradiation(T=100 h and 200 h)exhibited the least wear,with the volume of friction loss and the maximum depth of abrasion marks being only two-thirds of those observed in liners that were not irradiated or were irradiated for longer durations(T=300 h and 500 h).This indicates that UV irradiation's primary impact on the wear perfor
关 键 词:PTFE/Kevlar织物 紫外辐照 损伤形貌 转移膜 磨损机理
分 类 号:TH117[机械工程—机械设计及理论] V258[一般工业技术—材料科学与工程]
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