CoCrAlYTaCSi涂层和ZL101铸铝合金的气蚀性能研究  被引量：3

作　　者：任奕 侯国梁[2] 张晓亮 周惠娣[2] 陈建敏[2] REN Yi;HOU Guo-liang;ZHANG Xiao-liang;ZHOU Hui-di;CHEN Jian-min(School of Materials Science and Engineering,Hebei University of Engineering,Handan 056038,China;Key Laboratory of Solid Lubrication of Lanzhou Institute of Chemical Physics,Chinese Academy of Sciences,Lanzhou 730000,China)

机构地区：[1]河北工程大学材料科学与工程学院,河北邯郸056038 [2]中国科学院兰州化学物理研究所固体润滑重点实验室,兰州730000

出　　处：《表面技术》2018年第9期141-148,共8页Surface Technology

基　　金：国家自然科学基金项目(51601203);河北省高等学校自然科学青年拔尖人才项目(BJ2016009)~~

摘　　要：目的对比研究两种材料在RP-3航空煤油和去离子水中的耐气蚀性能,分析材料的气蚀机理以及介质的理化性质对其的影响机制,探讨用去离子水代替航空煤油以便快速筛选航空用耐气蚀材料的可行性。方法采用超音速火焰喷涂技术在铸铝合金(ZL101)表面均匀喷涂CoCrAlYTaCSi涂层。使用X射线衍射仪分析喷涂粉末、涂层和基体材料的物相组成。使用扫描电镜及其自带能谱仪分析材料气蚀前后的形貌以及元素分布。采用纳米压痕仪检测材料的力学性能。使用超声波振动气蚀试验机表征涂层及铸铝合金在航空煤油和去离子水中的气蚀性能。综合考虑两种材料气蚀后的平均侵蚀深度、形貌以及两种液体介质的理化性能,分析相应气蚀机理。结果 CoCrAlYTaCSi涂层主要由AlCo、Al_(80)Cr_(20)、Al_(45)Cr_7等物相组成,且分布均匀;铸铝合金主要由Al和Al_9Si相组成,增强相主要沿晶界分布。涂层的纳米硬度和弹性模量分别约是铸铝的6倍和2倍。气蚀中,铸铝合金晶粒内部的Al最先被损坏,加剧了气蚀进程;而CoCrAlYTaCSi涂层由于物相分布均匀、力学性能优异,所以损坏程度远轻于铸铝合金,在水和航空煤油中的平均侵蚀深度分别仅约为铸铝合金的2%和1%。两种材料在航空煤油中的平均侵蚀深度都比在水中的小。结论 CoCrAlYTaCSi涂层的物相分布均匀,具有较高的致密度、硬度和弹性模量,其在两种介质中均显示出更高的气蚀抵抗力。但材料在两种液体中的气蚀机理并不相同,导致在航空煤油介质中,CoCrAlYTaCSi涂层显示出更加优异的抗气蚀性能。The work aims to comparatively study the cavitation erosion performance of two materials in RP-3 aviation kerosene and deionized water,analyze the cavitation erosion mechanism and the influence of physical and chemical properties of medium and discuss the feasibility to replace aviation kerosene with deionized water so as to quickly select the anti-cavitation erosion materials used in aviation system.CoCrAlYTaCSi coating was prepared on the surface of cast aluminum alloy(ZL101)by high velocity oxy-fuel spraying(HVOF).Phase compositions of spraying powder,coating and substrate were analyzed by X-ray diffraction(XRD),and morphology and distribution of elements on the surface of materials before and after the cavitation erosion tests were detected by scanning electron microscope(SEM)and the built-in energy dispersive X-ray analyzer.A nano-indentation tester was used to measure the mechanical properties of materials.Avibration-induced laboratory cavitation tester was adopted to characterize the cavitation erosion of CoCrAlYTaCSi coating and cast aluminum respectively in aviation kerosene and deionized water.The corresponding cavitation erosion mechanism was analyzed by overall considering the mean depth of erosion and morphology of two materials after cavitation as well as the physical and chemical properties of two liquid medium.CoCrAlYTaCSi coating was mainly composed of AlCo,Al8〇Cr2〇and Al4 5Cr7 phases,and all the phases were evenly distributed.Cast aluminum was mainly composed of A1 and Al9Si phases,and the enhancement phases were mainly distributed along the grain boundaries.The nanohardness and elastic modulus of Co based coating were about 6 and 2 times higher than those of cast aluminum,respectively.The A1 phase inside grains of cast aluminum was firstly damaged,thus aggravating its cavitation erosion process.The damage degree of Co based coating was far slighter than that of cast aluminum because of even distribution of phase and excellent mechanical properties.Its mean depth of erosion in water and avia

关 键 词：超音速火焰喷涂 CoCrAlYTaCSi涂层 航空煤油 去离子水 气蚀 

分 类 号：TG174.44[金属学及工艺—金属表面处理]