脂肪醇对Ti6Al4V/钢摩擦副摩擦磨损性能的影响

采用SRV型摩擦磨损试验机分别考察了Ti6Al4V/钢摩擦副在多种脂肪醇润滑下的摩擦磨损性能。结果表明,与液体石蜡相比,碳链长度小于碳8的脂肪醇作为Ti6Al4V/钢摩擦副的润滑剂表现出良好的润滑性能,其润滑机制是在Ti6Al4V磨损表面形成吸附膜。载荷和频率明显影响Ti6Al4V/钢摩擦副在脂肪醇润滑下的摩擦磨损行为和摩擦磨损机制:当载荷较小时,Ti6Al4V磨损表面主要发生轻微的擦伤;随着载荷增加,Ti6Al4V磨损表面擦伤严重并在更高载荷下发生较为严重犁沟和塑性变形。     

磷嗪对Ti6Al4V/钢摩擦副摩擦磨损性能的影响

采用SRV型微动摩擦磨损实验机考察Ti6Al4V-钢摩擦副在磷嗪(X-1P)润滑下的摩擦磨损性能,并利用扫描电子显微镜和X射线光电子能谱仪分析Ti6Al4V磨斑表面形貌和典型元素的化学状态。结果表明,X-1P作为Ti6Al4V-钢摩擦副的润滑剂,具有很好的润滑性能;摩擦因数随载荷的增加变化不显著,磨损率随载荷的增加逐渐增大;频率和振幅明显影响摩擦学性能,磨损率随频率的增加逐渐减小,随振幅的增加逐渐增大;在Ti6Al4V-钢摩擦副中,X-1P由于含有极性元素F、P,Ti6Al4V的磨损表面主要发生腐蚀磨损,其磨损机制为X-1P在磨损表面发生摩擦化学反应,形成一层含O、C、F、N、P的保护膜以及金属氟化物,从而起到抗磨减摩作用。     

磷酸酯对Ti6Al4V/钢摩擦副摩擦磨损性能的影响

采用SRV型微动摩擦磨损实验机分别考察了Ti6Al4V/钢摩擦副在3种磷酸酯润滑下的摩擦磨损性能,并利用扫描电子显微镜和X射线光电子能谱仪分析了Ti6Al4V磨斑表面形貌和典型元素的化学状态.结果表明,磷酸三甲苯酯作为Ti6Al4V/钢摩擦副的润滑剂,其摩擦学性能明显好于磷酸二(2-乙基己基)酯和磷酸三丁酯.载荷和频率对磷酸三甲苯酯摩擦因数和磨损率的影响不同,摩擦因数随载荷和频率的增加变化不显著,磨损率随载荷的增加逐渐增加,随频率的增加先急剧下降,然后缓慢降低并趋于稳定;其磨损机制为在磨损表面形成牢固的边界膜,保护底材不受磨损.     

磷酸酯对Ti6A14V／钢摩擦副摩擦磨损性能的影响

采用SRV型微动摩擦磨损实验机分别考察了Ti6A14V／钢摩擦副在3种磷酸酯润滑下的摩擦磨损性能，并利用扫描电子显微镜和X射线光电子能谱仪分析了Ti6A14V磨斑表面形貌和典型元素的化学状态。结果表明，磷酸三甲苯酯作为Ti6A14V／钢摩擦副的润滑剂，其唪擦学性能明显好于磷酸二（2-乙基己基）酯和磷酸三丁酯。载荷和频率对磷酸三甲苯酯摩擦因数和磨损率的影响不同，摩擦因数随载荷和频率的增加变化不显著，磨损率随载荷的增加逐渐增加，随频率的增加先急剧下降，然后缓慢降低并趋于稳定；其磨损机制为在磨损表面形成牢固的边界膜，保护底材不受磨损。     

微织构对硬质合金表面摩擦性能的影响

微织构是一种有效地改进表面摩擦性能和提高表面承载能力的措施.为了研究微织构在刀具减磨技术方面的应用,本文在WC-Co硬质合金材料表面制作出微坑阵列,与Ti6Al4V构成摩擦副,在微量润滑(MQL)条件下进行摩擦磨损试验.研究发现:红MQL条件下,微织构对WC-Co/Ti6Al4V摩擦副具有一定的减磨效果,低速高载和高速...     

几种极压抗磨剂对Si3 N4陶瓷/GCr15钢副摩擦磨损性能的影响

利用MPX-2000型盘销式摩擦磨损试验机对Si3N4陶瓷与GCr15钢摩擦副在P120、T302、T306、T307、T321 5种极压抗磨添加剂作用下的摩擦磨损性能；采用SHIMADZU SSX-550型扫描电子显微镜观察盘试件的磨损表面形貌。结果表明：5种添加剂对该摩擦副均具有较明显的减摩抗磨作用，但是添加剂对该摩擦副的减摩和抗磨作用效果并不同步，P120的抗磨作用最好，T321的减摩效果最佳；综合考虑减摩抗磨时，添加剂P120的作用效果最佳；添加剂主要是通过物理和化学吸附膜对该摩擦副起到减摩抗磨作用；从SEM照片看，盘试件磨损表面主要表现为擦伤和粘着特征。     

纳米蒙脱石添加剂对45~#钢摩擦副摩擦学性能的影响

将KH550偶联剂修饰的纳米蒙脱石(MMT)按不同质量分数加入150N基础油中,制备质量分数1%~5%的5种纳米MMT润滑油体系,采用MMU-10G摩擦磨损试验机考察纳米MMT对45#钢摩擦副减摩抗磨性能的影响,采用SEM和EDX等分析试样形貌与表面元素成分的变化,分析影响摩擦学性能的机制。结果表明:质量分数3%的纳米MMT润滑油和具有最好的抗磨减摩性能,相对于基础油润滑体系,可使金属摩擦副磨损失重量最小降低45.5%;所有试样表面均形成了以MMT特征元素和Fe元素为主体组成的自修复膜层,使试样磨损损失获得补偿,其中质量分数3%的纳米MMT润滑油润滑时摩擦副表面MMT特征元素的含量最高,故试样磨损率最小;纳米MMT润滑体系润滑时的摩擦因数均低于纯基础油,但是不同含量的纳米MMT对改善45#钢摩擦副的减摩性没有明显的区别。     

润滑剂对轮轨摩擦与磨损的影响

利用MMS-2A磨损试验机模拟轮轨系统在润滑油、二硫化钼锂基脂、植物油和石墨钙基脂4种润滑剂润滑下的摩擦与磨损行为,研究润滑剂对轮轨副摩擦、磨损特性的影响.结果表明:与干态相比,4种润滑剂均使摩擦副的摩擦因数减小,表面磨痕深度减小,磨损量降低,其中石墨钙基脂的减摩和抗磨效果最好;试验结束后,轮轨试样接触表面的硬度均有不同程度的增加,其中涂有石墨钙基脂的轮轨试样的表面硬度增加最小.     

电场对WC-Co/Ti6Al4V摩擦磨损性能的影响

为了研究电场对摩擦副摩擦磨损性能的影响,在自行设计的高速摩擦磨损试验装置上,进行了WC-Co/Ti6Al4V摩擦副的摩擦磨损试验。结果表明：断开摩擦副热电回路可以有效地减小热电流对WC-Co/Ti6Al4V摩擦副摩擦磨损的影响,静电冷却环境下形成的强电场的效果更加明显,在抑制摩擦副磨损的同时还可以改善
Ti6Al4V磨损表面质量。通过扫描电镜及EDS能谱分析可知,静电冷却条件下的列宾捷尔效应削弱了钛合金的黏着能力,从而有效地减小了WC-Co的黏着磨损;WC-Co在高速摩擦时主要以黏着磨损、氧化磨损为主,同时伴有微裂纹的产生。
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超声振动对不同黏度润滑油摩擦学性能的影响

研究GCr15/45#钢摩擦副在4种不同黏度的润滑油润滑时,有和无超声振动下的摩擦磨损性能,采用扫描电子显微镜分析磨痕表面形貌,探讨在不同黏度润滑油作用下,超声振动对润滑油摩擦学性能的影响机制。结果表明:超声振动对不同黏度润滑油摩擦学性能的影响是不同的;超声振动可以提高低黏度润滑油润滑的减摩抗磨性能,如在6#白油润滑时施加超声振动后,摩擦副间的摩擦因数和磨损体积分别减小了13.6%和17.5%;高黏度润滑油润滑时,超声振动会加剧摩擦副的摩擦磨损,如在150BS润滑时施加超声振动后,摩擦副间的摩擦因数和磨损体积分别增加了10.4%和50%。     

Sliding friction and wear performance of Ti6Al4V in the presence of surface-capped copper nanoclusters lubricant

The friction and wear properties of Ti₆Al₄V sliding against AISI52100 steel ball under different lubricative media of surface-capped copper nanoclusters lubricant—Cu nanoparticles capped with O,O′-di-n-octyldithiophosphate (Cu-DTP), rapeseed oil and rapeseed oil containing 1 wt% Cu-DTP was evaluated using an Optimol SRV oscillating friction and wear tester. The wear mechanism was examined using scanning electron microscopy (SEM) and X-ray photoelectron spectrosmeter (XPS). Results indicate that Cu-DTP can act as the best lubricant for Ti₆Al₄V as compared with rapeseed oil and rapeseed oil containing 1 wt% Cu-DTP. The applied load and sliding frequency obviously affected the friction and wear behavior of Ti₆Al₄V under Cu-DTP lubricating. The frictional experiment of the Ti₆Al₄V sliding against AISI52100 cannot continue under the lubricating condition of rapeseed oil or rapeseed oil containing 1 wt% Cu-DTP when the applied load are over 100 N. Surprisingly, the frictional experiment of Ti₆Al₄V sliding against AISI52100 steel can continue at the applied load of 450 N under Cu-DTP lubricating. The tribochemical reaction film containing S and P is responsible for the good wear resistance and friction reduction of Ti₆Al₄V under Cu-DTP at the low applied load. However, a conjunct effect of Cu nanoparticle deposited film and tribochemical reaction film containing S and P contributes to the good tribological properties of Ti₆Al₄V under Cu-DTP at the high-applied load.     

ESPCP系统推力球在原油态下摩擦磨损性能研究

利用SRV摩擦磨损试验机模拟了潜油螺杆泵采油系统（ESPCP系统）推力球在原油为润滑介质时的摩擦磨损性能，通过不同热处理的GCr15钢球与GCr15钢盘的摩擦磨损性能研究，考察了等离子渗氮GCr15钢代替淬火GCr15钢的可行性；利用X射线散射（XRD）对等离子渗氮GCr15钢表面进行成分分析，考察了以原油为润滑介质时，钢盘的摩擦磨损性能。结果表明，GCr15钢等离子渗氮后在提高表面硬度的同时，其抗磨性能大幅度提高。通过扫描电子显微镜（SEM）和X光电子能谱仪（XPS）对磨斑表面形貌和表面成分进行了分析，表明等离子渗氮层具有更好的抗磨、减摩性能和更高的承载能力。     

Friction and Wear Behavior of Ultra-High Molecular Weight Polyethylene Sliding Against GCr15 Steel and Electroless Ni–P Alloy Coating Under the Lubrication of Seawater

The friction and wear behavior of ultra-high molecular weight polyethylene (UHMWPE) sliding against GCr15 steel and electroless Ni-P alloy coating under the lubrication of seawater was investigated and compared with that under dry sliding and lubrication of pure water and 3.5 wt.% NaCl solution, respectively. It was found that under the lubrication of aqueous medium, the friction and wear behavior of UHMWPE mainly depended on the corrosion of counterface and the lubricating effect of the medium. Because of serious corrosion of counterface by the medium, the wear rates of UHMWPE sliding against GCr15 under the lubrication of seawater and NaCl solution were much larger than that under other conditions, and such a kind of wear closely related to the corrosion of counterface can be reckoned as indirect corrosive wear. However, when sliding against corrosion-resistant Ni–P alloy under the lubrication of seawater, the lowest coefficient of friction and wear rate of UHMWPE were obtained, owing to superior lubricating effect of seawater. Moreover, periodic ripple patterns were observed on the worn surfaces of UHMWPE sliding against GCr15 under the lubrication of seawater and NaCl solution, which were ascribed to the intelligent reconstruction of surface microstructure of UHMWPE upon large plowing effect of the counterface asperities. Based on scanning electron microscopic (SEM) and three-dimensional (3D) profile analyses of the worn surfaces of UHMWPE, a stick–slip dynamic mechanism was proposed to illustrate the pattern abrasion of UHMWPE. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Tribological Behavior of Ti3Al2.5V Alloy Sliding against EN-31 Steel under Dry Condition

This article aims to study the friction and wear behavior of Ti3Al2.5V alloy sliding against EN-31 steel under dry condition using a multi-tribotester. The effect of variation in load and sliding velocity on wear rate, average coefficient of friction, and contact temperature has been studied and analysis of wear debris has been carried out. Scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS) were employed to study the morphology of the wear tracks and deduce microchemical information at the elemental level of worn samples, respectively. Results reveal that the wear rate of Ti-3Al-2.5V increases with increasing sliding velocity and increasing normal load with few exceptions. The average coefficient of friction decreases as the normal load increases with exceptions at some loads. SEM micrographs of worn samples obtained at different loads and sliding velocities show the formation of wear tracks on the surface due to ploughing and flaking of the matrix. The main mechanism responsible for wear of Ti3Al2.5V alloy sample is rupture of the matrix and abrasion. Wear debris analysis shows irregular-shaped wear particles with very sharp edges that appeared to be plastically deformed at high sliding velocity, whereas the wear debris is very loose and fine at lowest sliding velocity.     

不同润滑介质下钢-钢摩擦副的摩擦磨损性能

研究了钢-钢摩擦副在干摩擦、水润滑、酒精润滑和60 N油润滑等条件下的摩擦磨损行为。结果表明:润滑介质可以显著降低钢-钢摩擦副的摩擦系数,在干摩擦、水润滑、酒精润滑和60N油润滑,摩擦载荷为(50～200)g(钢球半径为2 mm)时摩擦系数的平均值分别为0.75～0.81,0.45～0.33,0.22～0.15,0.13～0.09;在高载荷下酒精润滑与油润滑磨损速率相差甚小,并且在摩擦磨损初期阶段(500 s之内)摩擦系数相差甚少;同时,酒精润滑条件下的磨损表面形貌与油润滑下的磨损表面形貌极为相似,无明显粘着现象。分析表明,酒精润滑是一种绿色润滑介质,在压延、拉伸工业中有良好的应用前景。     

Friction and wear properties of Kevlar pulp reinforced epoxy composites under dry sliding condition

In this work, the friction and wear properties of Kevlar pulp reinforced epoxy composites against GCr15 steel under dry sliding condition were evaluated on a reciprocating ball-on-block UMT-2MT tribometer. The effects of Kevlar pulp content on tribological properties of the composites were investigated. The worn surface morphologies of neat epoxy and its composites were examined by scanning electron microscopy (SEM) and the wear mechanisms discussed. The results show that the incorporation of Kevlar pulp into epoxy contributed to improve the friction and wear behavior considerably. The maximum wear reduction was obtained when the content of Kevlar pulp is 40 vol%. The friction coefficient of epoxy and its composites increased with load while increase in the sliding frequency induced a reverse effect. Fatigue wear and scuffing were notable for the neat epoxy. The fatigue cracks were greatly abated when the filler content was 40 vol%. The wear grooves appeared on the worn surface at higher filler content.     

Ti6Al4V/WC-Co干摩擦性能研究

利用Optimal SRV高温摩擦磨损试验机,研究干摩擦条件下钛合金(Ti6Al4V)对硬质合金(WC-Co)的摩擦学性能.研究了载荷、温度与滑动速度对摩擦过程的影响,通过磨损区微观形貌表征分析了磨损机理.结果表明:Ti6Al4V与WC-Co的摩擦系数波动剧烈,产生了严重的黏滑摩擦,且随着载荷、温度与滑动速度的增加,黏...     

Friction and Wear Behaviors of Several Polymers Sliding Against GCr15 and 316 Steel Under the Lubrication of Sea Water

Ocean tribology, a new research field of tribology, is currently being established and developed. The tribological behaviors of polyether ether ketone (PEEK), poly(phenyl p-hydroxybenzoate) (PHBA), polyimide (PI), and perfluoroethylene propylene copolymer (FEP) sliding against GCr15 and 316 steel rings under the lubrication of sea water were studied and compared with that under the lubrication of pure water. The results show that the friction and wear behaviors of a polymer under the lubrication of aqueous medium are not only related to the properties of polymer itself, but also to the corrosive effect and lubricating effect of the medium. When a polymer slid against GCr15 steel under sea water lubrication, the friction coefficient and wear rate of polymer were much larger than that under pure water lubrication because of indirect corrosive wear. However, when sliding against corrosion-resistant 316 steel, polymers PEEK, FEP, and PI exhibited lower coefficients of friction and wear rates under sea water lubrication, this was attributed to better lubricating effect of sea water as a result of the deposition of CaCO₃ and Mg(OH)₂ on the counterface. On the contrary, the friction coefficient and wear rate of PHBA sliding against 316 steel under sea water lubrication were larger than that under pure water lubrication, which may be related to the properties of PHBA itself.