钛及其合金的扭动微动摩擦磨损特性

采用新型扭动微动试验机在法向载荷为50、80和110 N及角位移幅值为0.3°~10°的条件下进行TA2和TC4合金与ZrO2对磨球的扭动微动试验。在摩擦动力学行为研究的基础上,结合磨痕形貌微观分析,考察TA2和TC4合金的扭动微动磨损特性。结果表明:可用摩擦扭矩—角位移曲线和摩擦扭矩时变曲线表征合金的扭动微动行为,获得了TA2和TC4合金的扭动微动运行工况微动图,TA2合金的混合区较TC4合金的宽。摩擦扭矩随法向载荷和角位移幅值的增加而增加,在相同试验条件下,TA2合金的摩擦扭矩始终大于TC4合金的。在部分滑移区,损伤轻微;在混合区和滑移区,损伤加剧,扭动微动摩擦磨损机制主要为磨粒磨损、氧化磨损和剥落。     

扭动微动磨损的研究进展和现状

扭动微动磨损是微动磨损的一种,文中介绍了国内外扭动微动磨损的研究进展及成果,综述了典型金属材料、高分子材料和天然软骨的扭动微动磨损的研究结果,包括扭动微动的摩擦运行行为、材料响应行为、界面的摩擦化学行为、损伤物理模型和演变规律等,对于不同种类材料在部分滑移区、混合区、滑移区的损伤规律进行了系统的总结,发现了扭动微动运行区域特性具有与其它模式的微动磨损不同的特点等一系列现象,并探讨了其今后的可能的发展方向和研究重点。     

Ti6Al4V 合金在Saline溶液中的扭动微动磨损

在球/面接触中存在四种微动模式,即切向、径向、转动和扭动微动,在生理介质中扭动微动是人工关节失效的主要原因之一。本文成功建立了一种可在恒温液体介质中实现球/面接触扭动微动的新的试验系统。利用该系统,在37℃的Saline溶液中进行了钛合金/二氧化锆陶瓷球的扭动微动试验,详细讨论了扭动微动的运行行为和损伤机理。结果表明,扭动微动动力学行为在很大程度上取决于扭动角位移振幅和周期数。研究建立了扭动微动运行工况图（RCFM）,包括3个区域,即：部分滑移区（PSR）,混合区（MFR）和完全滑移区（SR）。在部分滑移区,接触中心没有发现任何损伤,接触边缘上只观察到轻微的擦伤和磨损。在混合区,损坏区域从接触边缘向中心扩展,接触中心无损伤,接触边缘区域出现氧化磨损和损伤。在滑移区,整个接触区域均发生损伤,损伤机理主要是磨蚀磨损、氧化磨损、和粘着磨损。     

Torsional fretting corrosion behaviours of Ti6Al4V alloys in Hank’s simulated body fluid

ABSTRACT

Torsional fretting corrosion in a physiological medium is one of the main reasons that artificial joints fail. In this study, we carried out experiments on torsional fretting corrosion in Titanium alloys (Ti6Al4V) against Zirconium dioxide (ZrO₂) ceramic balls under 37°C in a Hank’s simulated body fluid. During the tests, we recorded electrochemical corrosion parameters using an electrochemical analysis system in real-time. We analysed the torsional fretting dynamics behaviours, damage mechanisms, and electrochemical corrosion behaviours in detail using the micro-examinations of a scanning electron microscope (SEM), an energy-dispersive X-ray (EDX), a profilometer, and an X-ray photoelectron spectrometer (XPS). The results showed that the dynamics behaviours strongly depended upon the torsional angular displacement amplitude and the number of cycles. The friction torque increased with increases in the torsional angular displacement amplitude and normal load. We established a running condition fretting map (RCFM), which included three fretting running regimes: a partial slip regime (PSR), a mixed fretting regime (MFR), and a slip regime (SR). We determined that the influences of torsional fretting on electrochemical corrosion behaviours were strongly correlated to the angular displacement amplitude. Under large angular displacement amplitudes, the corrosion of the Ti6Al4V alloys in Hank’s simulated body fluids were accelerated by torsional fretting, especially during the initial stage of the test. However, when the angular displacement amplitude was smaller than 1°, the corrosion potentials and corrosion currents were almost invariable during the entire duration of the test. The damage to the Ti6Al4V alloy was the result of wear and corrosion. The wear mechanisms were attributable to delamination and abrasive wear in the three fretting regimes. We observed almost no damage on the contact centre and only slight scratches and wear on the contact edge in the PSR. In MFR testing, the damage zone extended to the contact centre and the sticking zone (which exhibited no damage) contracted to the contact centre with increases in the number of cycles. Ultimately, in MFR and SR testing, the damage mechanisms were primarily the result of abrasive wear, oxidation wear, tribochemical reactions, adhesion wear, and electrochemical corrosion.     

接触载荷对TC4钛合金微动磨损行为的影响

目的在不同的载荷和位移幅值下,结合微动图研究微动接触状态、滑移状态、损伤体积三者对微动摩擦磨损的影响以及不同微动接触状态和滑移状态下材料的损伤机理,为机械构件的微动磨损防护设计提供一定的理论支持。方法在相对湿度为50%、干摩擦条件下,运用SRV-V摩擦实验机,采用球/平面接触形式研究了TC4钛合金/GCr15钢球摩擦副的微动摩擦磨损行为。实验后,用原子力显微镜、纳米压痕仪、三维光学轮廓仪、场发射扫描电子显微镜及其自带的EDS,测试TC4试样的表面形貌及粗糙度、弹性模量与硬度、磨损体积与截面形貌和显微结构及磨斑、磨屑形貌成分等。结果在较低法向载荷下,完全滑移(GSR)占主导地位。磨粒磨损、粘着磨损、氧化磨损以及疲劳脱层是主要的损伤机理。另一方面,在较高法向载荷下,混合滑移(MSR)、部分滑移(PSR)占主导地位。损伤机制是由于高的应力集中,导致疲劳裂纹。此外,不同的微动运行条件下和材料损伤区域也不相同。完全滑移条件下,损伤主要集中在磨斑中心,而部分滑移条件下,损伤主要集中在磨斑边缘。结论切向摩擦力、微动振幅是影响微动磨损的重要因素。小位移幅值下,磨屑可以减缓接触面钛合金基体材料的微动磨损;而大位移幅值下,磨屑会加剧接触面基体材料的微动磨损。     

Fretting wear of micro-arc oxidation coating prepared on Ti6Al4V alloy

Micro-arc oxidation(MAO)coating was prepared on Ti6Al4V alloy surface and its characterizations were detected by Vickers hardness tester,profilometer,scanning electric microscope(SEM),energy dispersive X-ray spectrometer(EDX)and X-ray diffractometer(XRD).Fretting wear behaviors of the coating and its substrate were comparatively tested without lubrication under varied displacement amplitudes(D)in a range of 3-40μm,constant normal load(Fn)of 300 N and frequency of 5 Hz.The results showed that the MAO coating,presenting rough and porous surface and high hardness,mainly consisted of rutile and anatase TiO2 phases.Compared with the substrate,the MAO coating could shift the mixed fretting regime(MFR)and slip regime(SR)to a direction of smaller displacement amplitude.In the partial slip regime(PSR),lower friction coefficients and slight damage appeared due to the coordination of elastic deformation of contact zones.In the MFR,the friction coefficient of the coating was lower than that of the substrate as a result of the prevention of plastic deformation by the hard ceramic surface.With the increase of the displacement amplitude,the degradation of the MAO coating and the substrate increased extremely.The fretting wear mechanisms of the coating were abrasive wear and delamination with some material transfer of specimen.In addition,the coating presented a better property for alleviating fretting wear.     

Influence of oil and water media on fretting behaviour of AISI 52100 steel rubbing against AISI 1045 steel

A series of fretting test were carried out using a DELTA PLINT testing system to study the influence of hydraulic oil and water on fretting behaviour of AISI 52100 steel rubbing against AISI 1045 steel. The test result shows that media hydraulic oil and water have a distinct influence on fretting behaviour of the tested materials. Medium water can lead to shifting of the partial slip regime in the fretting map from a larger displacement amplitude toward a smaller one and enlargement of the mixed slip regime, in comparison with that in ambient atmosphere. While medium hydraulic oil can result in shifting of the partial slip regime from a smaller displacement amplitude toward a larger one. In the gross slip regime, hydraulic oil and water play a positive role as lubrication media. They can clearly decrease the fretting friction coefficient between AISI 52100 and AISI 1045. The test result also demonstrates that this lubrication effect will get better with increasing displacement amplitude and that hydraulic oil is better than water for lubrication. SEM observation of the wear scars displays that the fretting wear mainly results from abrasive wear and delamination of the fretted materials when using these two kinds of substances as lubrication media.     

Ti6Al7Nb合金氮离子注入层在小牛血清溶液中的扭动微动摩擦磨损性能

利用高能离子注入及增强沉积系统对Ti6Al7Nb合金做了不同剂量的氮离子注入处理,采用球/平面接触模式,对Ti6Al7Nb合金及其离子注入层/ Zr2O球（直径为25.2 mm）接触副在小牛血清介质条件下进行了扭动微动磨损实验研究。结合动力学分析,借助X射线衍射仪（XRD）、三维形貌仪（3D-profiler）和扫描电镜（SEM）分析了测试材料成分及其扭动微动磨损磨痕形貌和微观组织结构, 探讨了Ti6Al7Nb合金及其离子注入层的扭动微动运行行为和损伤机制。结果表明：N+离子注入在钛合金表面形成了氮化钛层,使钛合金表面的微观硬度明显提高,随着注入剂量的增加,钛合金的硬度逐渐升高,磨痕逐渐变小,磨粒逐渐变细,其抗扭动微动磨损性能也提高     

LZ50钢离子渗氮层的转动微动磨损行为

利用离子渗氮技术在LZ50钢表面进行渗氮处理.对渗氮层及其基体材料(LZ50钢)在干态不同角位移幅值下进行转动微动磨损试验,并采用扫描电子显微镜(SEM)、电子能谱仪(EDX)和轮廓仪对磨痕形貌进行了分析.结果表明:渗氮层虽没有改变LZ50钢的转动微动运行区域特性,但显著降低了基体的摩擦系数,并提高了基体的耐磨性.在部分滑移区,渗氮层损伤轻微,仅呈现零星点状压痕;滑移区,渗氮层的损伤主要表现为剥层和磨粒磨损.     

0Cr20Ni32AlTi合金的高温微动磨损及摩擦氧化特性(英文)

在300和400℃、载荷80N的条件下,将0Cr20Ni32AlTi合金以水平垂直交叉接触方式进行微动磨损试验,并采用SEM和XPS对磨痕及磨屑进行分析。结果表明:当位移幅值为10和20μm时,微动分别对应于混合区和滑移区,且材料表面均发生严重的磨损和摩擦氧化。微动过程产生大量颗粒状磨屑,经往复碾压后易粘附、聚集于接触区。摩擦氧化反应的生成物主要由Fe3O4、Fe2O3、Cr2O3和NiO等组成。温度和摩擦作用是影响磨屑氧化转化反应速率的主要因素。微动摩擦作用可以增加0Cr20Ni32AlTi合金表面原子的氧化反应活性并降低氧化反应的活化能,从而加快磨屑氧化转化反应的速率。     

晶粒度对Inconel 690合金微动磨损行为的影响

为预防及减缓微动损伤对核反应堆蒸汽发生器传热管的危害,深入研究了晶粒尺寸对Inconel 690合金微动磨损行为的影响。采用微动磨损试验方法对Inconel 690合金的微动磨损特性展开研究,并利用光学显微镜(OM)、维氏硬度计、扫描电镜(SEM)、能谱仪(EDS)和激光共焦扫描显微镜(LSCM)等对不同固溶温度下材料的微观组织结构、硬度和磨痕特征进行观察和分析。结果表明,随着固溶温度的升高,Inconel 690合金晶粒尺寸增大,硬度降低;在完全滑移区,摩擦因数随晶粒度和硬度的变化很小,其值均约为0.48;当Inconel 690合金平均晶粒尺寸为112μm,且SS304与Inconel 690合金硬度比为260∶176.4时,Inconel 690合金磨损体积最少;不同晶粒度和硬度下Inconel 690合金的微动磨损机制主要为剥层磨损、磨粒磨损和粘着磨损。     

Warm Temperature Deformation Behavior and Processing Maps of 5182 and 7075 Aluminum Alloy Sheets with Fine Grains

The tensile deformation behavior and processing maps of commercial 5182 and 7075 aluminum alloy sheets with similarly fine grain sizes (about 8 μm) were examined and compared over the temperature range of 423–723 K. The 5182 aluminum alloy with equiaxed grains exhibited larger strain rate sensitivity exponent (m) values than the 7075 aluminum alloy with elongated grains under most of the testing conditions. The fracture strain behaviors of the two alloys as a function of strain rate and temperature followed the trend in their m values. In the processing maps, the power dissipation parameter values of the 5182 aluminum alloy were larger than those of the 7075 aluminum alloy and the instability domains of the 5182 aluminum alloy were smaller compared to that of the 7075 aluminum alloy, implying that the 5182 aluminum alloy had a better hot workability than the 7075 aluminum alloy.     

Fretting wear behavior of Ti/TiN multilayer film on uranium surface under various displacement amplitudes

Ti/TiN multilayer film was deposited on uranium surface by arc ion plating technique to improve fretting wear behavior. The morphology, structure and element distribution of the film were measured by scanning electric microscopy (SEM), X-ray diffractometry (XRD) and Auger electron spectroscopy (AES). Fretting wear tests of uranium and Ti/TiN multilayer film were carried out using pin-on-disc configuration. The fretting tests of uranium and Ti/TiN multilayer film were carried out under normal load of 20 N and various displacement amplitudes ranging from 5 to 100 μm. With the increase of the displacement amplitude, the fretting changed from partial slip regime (PSR) to slip regime (SR). The coefficient of friction (COF) increased with the increase of displacement amplitude. The results indicated that the displacement amplitude had a strong effect on fretting wear behavior of the film. The damage of the film was very slight when the displacement amplitude was below 20 μm. The observations indicated that the delamination was the main wear mechanism of Ti/TiN multilayer film in PSR. The main wear mechanism of Ti/TiN multilayer film in SR was delamination and abrasive wear.     

氧化时间对微弧氧化膜电接触微动磨损行为的影响

目的研究不同氧化时间的铝合金表面微弧氧化涂层在电接触条件下的微动磨损行为,并探讨其磨损机理。方法通过控制氧化时间(10、20、30、40、50、60、70 min),在铝合金表面制备不同表面状态的微弧氧化涂层,并利用四线接触法研究其在电接触条件下接触电阻的变化,通过分析摩擦系数、F-D曲线、磨损形貌、三维轮廓及磨痕化学成分来揭示其微动磨损机理。结果电接触微动磨损下,氧化不同时间形成的微弧氧化涂层在相同电接触微动磨损条件下的耐磨性存在明显差异,进而影响其电接触行为。氧化10 min时,涂层磨损最严重,磨损区域的涂层迅速失效,从而导致铝合金基体外露,接触电阻骤降至零;氧化50 min时,涂层厚度最大,具有良好的耐磨性,缓减了接触电阻的衰减,接触电阻曲线在衰减过程中受到磨斑表面裂纹的影响而产生波动。结论氧化时间会影响微弧氧化膜表面形貌、粗糙度以及厚度,对其在电接触条件下的微动磨损行为影响较大。     

TC4钛合金的微动疲劳行为研究

研究了TC4钛合金在柱面-平面接触条件下的微动疲劳行为.通过观察微动区的磨损特征和截面形貌,分析了微动疲劳损伤机制,探讨了磨屑的形成与演变过程及其对微动疲劳行为的影响,考察了摩擦系数随时间的变化.结果表明,TC4钛合金微动区的损伤机制以粘着磨损、磨粒磨损和接触疲劳为主,并伴有氧化磨损.磨屑是基体材料脱落、破碎、氧化形成的,磨屑中的硬质氧化物颗粒促进了合金表面的磨粒磨损,加速了疲劳失效.     

钛合金表面离子束增强沉积MoS2基膜层及其性能

将离子束增强沉积（IBED）技术与离子束溅射的沉积技术相结合,在钛合金表面制备了MoS2,MoS2-Ti复合膜。研究了膜层的形态、结构、膜基结合强度、硬度、摩擦学性能及抗微动（fretting）损伤性能。结果表明;所获膜层较纯溅射膜结合强度高、致密性好,复合膜中允许的金属元素含量大。通过恰当地控制复合膜中Ti的含量,可获得以（002）基面择优取向的MoS2-Ti复合膜,该膜层有较好的减摩和抗磨综合性能,能够显著地改善钛合金的常规磨损、微动摩员（FW)和微动疲劳（FF）性能,特别是在磨损严重的大位移整体滑条件下,MoS2-Ti复合膜对钛合金FF抗力的提高作用可大于喷丸形变强化处理。     

A356铝合金微弧氧化膜微动磨损行为的研究

采用微弧氧化（MAO）在A356铝合金表面制备MAO膜,利用球-平面接触在SRV-V微动摩擦磨损机上探究变载荷和位移下微弧氧化对A356微动磨损机理的影响。结果表明：MAO膜由疏松层和致密层构成,其均匀性、致密性和结合力良好。MAO膜的摩擦系数、磨损率均低于A356,MAO膜减摩耐磨性较好。随位移增加MAO膜的摩擦耗散能系数低于A356,MAO膜能提升A356微动磨损过程的稳定性。载荷增加时A356磨损机制为磨粒磨损-粘着磨损,伴随犁削和疲劳剥层; MAO膜磨损机制为磨粒磨损-粘着磨损和疲劳剥落。位移增加时A356磨损机制为粘着磨损和疲劳剥落,伴随微犁削;MAO膜磨损机制为粘着磨损和疲劳剥层-粘着磨损和磨粒磨损。A356的磨痕内聚集Fe、O元素,存在材料转移和氧化磨损;MAO膜磨痕内聚集Fe元素,存在材料转移。     

Effect of nitrogen ion implantation dose on torsional fretting wear behavior of titanium and its alloy

Various doses of nitrogen ions were implanted into the surface of pure titanium, Ti6Al7Nb and Ti6Al4V, by plasma immersion ion implantation. Torsional fretting wear tests involving flat specimens of no-treated and treated titanium, as well as its alloys, against a ZrO₂ ball contact were performed on a torsional fretting wear test rig using a simulated physiological medium of serum solution. The treated surfaces were characterized, and the effect of implantation dose on torsional fretting behavior was discussed in detail. The results showed that the torsional fretting running and damage behavior of titanium and its alloys were strongly dependent on the dose of the implanted nitrogen ions and the angular displacement amplitude. The torsional fretting running boundary moved to smaller angular displacement amplitude, and the central light damage zone decreased, as the ion dose increased. The wear mechanisms of titanium and its alloys were oxidative wear, abrasive wear and delamination, with abrasive wear as the most common mechanism of the ion implantation layers.     

Cu/Ni多层膜对Ti811合金微动磨损和微动疲劳抗力的影响

在Ti811钛合金表面利用离子辅助磁控溅射沉积技术制备20～1200nm不同调制周期的Cu/Ni金属多层膜,分析多层膜的结构,测试膜基结合强度、膜层显微硬度和韧性,对比研究不同调制周期的Cu/Ni多层膜对钛合金基材常温下微动磨损性能和微动疲劳(FF)抗力的影响。结果表明:利用离子辅助磁控溅射技术可以获得致密度高、晶粒细化、膜基结合强度高的Cu/Ni多层膜,该类多层膜具有良好的减摩润滑作用,因而改善了Ti811钛合金常温下抗微动磨损和微动疲劳性能;Cu/Ni多层膜对钛合金FF抗力的改善程度随膜层调制周期呈现非单调变化趋势,调制周期为200nm的Cu/Ni多层膜对钛合金FF抗力的提高程度最大,原因归于该膜层具有良好的强韧和润滑综合性能。     

纯钛和钛合金在人工唾液中的复合微动磨损行为(英文)

在改进后的液压伺服双向微动磨损试验机上实现双向微动。在人工唾液环境中,对TA2纯钛和Ti6Al7Nb合金在6 mm/min的加载速度下以不同接触倾角(45°和60°)和不同最大外加载荷(200~400 N)条件下进行复合微动磨损实验。详细研究循环垂向力和倾斜角的影响。结合动力学分析与微观检测结果显示:磨痕和塑性变形累积呈现强烈的非对称性。在人工唾液环境中和相同实验参数下,Ti6Al7Nb合金比TA2纯钛具有更好的抗磨损性能,并随着倾斜角度的增加和外加载荷的降低,磨损相应减轻。TA2纯钛和Ti6Al7Nb合金在人工唾液环境中的复合微动磨损机制是磨粒磨损、氧化磨损和剥层。