PCBN刀具切削镍基高温合金刀具磨损的试验研究

通过PCBN刀具对镍基高温合金GH4169进行了车削试验,深入研究了切削时的刀具磨损形态及磨损原因,得出如下结论:通过试验观察看出刀具的磨损形态有前刀面磨损、后刀面磨损、沟槽磨损和刀具破损。其中沟槽磨损最为显著,是刀具失效的主要原因。沟槽磨损的产生原因主要有粘结磨损、扩散磨损和塑性侧流产生的切屑毛刺划擦作用,其中粘结磨损为磨损前期的主要原因,而扩散磨损是磨损后期的主要原因。     

Characteristics of Extrusive Wear and Transition of Wear Mechanisms in Elevated-Temperature Wear of a Carbon Steel

The dry sliding wear of a medium carbon steel with different microstructures was measured under the normal load range of 50–150 N at 400°C by a pin-on-disc high-temperature wear setup. The wear behavior and wear mechanism were systematically studied; in particular, the characteristics of extrusive wear and the transition of wear mechanisms were investigated. Under low normal loads, the wear is oxidative type wear. Once the normal load reached a critical value, a mild-to-severe wear transition occurred, and subsequently an extrusive wear prevailed. The mild-to-severe wear transition depended on the microstructure of matrix; the critical normal load of the transition was 112.5 N for tempered sorbite, 125 N for lamellar pearlite, and 137.5 N for tempered martensite and tempered troostite. As oxidative wear prevailed, a thick oxide layer about 20–30 μ m and a plate-like wear debris with regular outline were recognized. However, as the extrusive wear occurred, the wear rate abruptly increased but the friction coefficient was reduced. The extrusive wear predominated due to thermal softening of the matrix and presented a superthin oxide layer (less than 0.5 μ m) and low oxide content on worn surfaces, accompanied by the appearance of ribbon-like wear debris.     

不同环境气氛对高速干滑动钢/铜摩擦副磨损机制的影响

利用MMS-1G型高温高速销-盘摩擦磨损试验机,以钢/铜摩擦副为研究对象,研究了不同环境气氛对高速干滑动钢/铜摩擦副磨损机制的影响,应用扫描电子显微镜(SEM)、能谱分析仪(EDS)对销试样磨损表面进行分析。结果表明:随着pv值的增加,氧气条件下的磨损机制由粘着磨损转变为氧化磨损;氮气条件下的磨损机制由粘着磨损转变为金属流变和磨粒磨损。氮气气氛条件下的摩擦因数和磨损率均高于氧气气氛条件下的摩擦因数和磨损率。     

基于磨粒表面信息的磨损表面特征评估

建立了基于磨粒表面信息的磨损表面评估方法。首先选择合理的磨粒和磨损表面特征参数，通过识别磨粒类型，获得磨损过程中具有典型性和代表性的磨粒类型，然后选取这些具有代表性的磨粒类型，得到磨粒的表面特征向量，进而来研究磨损表面和磨粒表面的映射关系，实现基于磨粒表面信息的磨损表面特征评估。实例表明，根据磨粒表面特征评估磨损表面特征是可行的。     

车辆机械零件的磨损与预防

磨损是车辆机械零件的主要的失效形式,按磨损机理可分为粘着磨损、磨料磨损、疲劳磨损、腐蚀磨损、气蚀和微动磨损等,通过分析车辆机械零件的磨损机理,采取合理的预防措施,可有效地提高车辆机械零件的使用寿命。     

基于动力学特性的挖掘机工作装置端面摩擦副间隙磨损机理研究

机械动力装备中常因为作业工况恶劣导致关节端面摩擦副间隙处磨损严重,为了探讨关节端面摩擦副间隙处作业过程中磨损变化行为及作用机理,以某型号挖掘机为例,基于动力学模拟分析两种典型工况下得到动臂关节处动态载荷数据基础上,利用有限元数值模拟技术并修正Archard磨损模型计算得出端面摩擦副间隙处磨损深度与磨损次数的关系,在端面磨损试验机上验证两种工况下关节间隙处耐磨垫片磨损变化过程,在扫描电镜下观察磨损后的表面形貌分析磨损作用机理。结果表明：两种工况下,磨损区域均为环形区域;偏载工况磨损主要与接触应力值大小和偏载角度有关,磨损过程中表面产生锥刺凹坑和交叉犁沟等,磨损机制由疲劳磨损向黏着磨损转化,同时伴随有少量的磨粒磨损;满载启动回转工况磨损主要与接触碰撞程度有关,磨损形式主要为黏着磨损与磨粒磨损。此分析方法对工程机械行业分析其它动力装备关节摩擦副和工程应用具有较好的参考价值。     

Analysis of wear mechanism and influence factors of drum segment of hot rolling coiler

Because the work environment of segment is complex, and the wear failures usually happen, the wear mechanism corresponding to the load is a key factor for the solution of this problem. At present, many researchers have investigated the failure of segment, but have not taken into account the compositive influences of matching and coiling process. To investigate the wear failure of the drum segment of the hot rolling coiler, the MMU-5G abrasion tester is applied to simulate the wear behavior under different temperatures, different loads and different stages, and the friction coefficients and wear rates are acquired. Scanning electron microscopy(SEM) is used to observe the micro-morphology of worn surface, X-ray energy dispersive spectroscopy(EDS) is used to analyze the chemical composition of worn surface, finally the wear mechanism of segment in working process is judged and the influence regulars of the environmental factors on the material wear behaviors are found. The test and analysis results show that under certain load, the wear of the segment changes into oxidation wear from abrasive wear step by step with the temperature increases, and the wear degree reduces; under certain temperature, the main wear mechanism of segment changes into spalling wear from abrasive wear with the load increases, and the wear degree slightly increases. The proposed research provides a theoretical foundation and a practical reference for optimizing the wear behavior and extending the working life of segment.     

TD法VC涂层与陶瓷和钢对摩时摩擦磨损性能对比研究

采用TD法在Cr12MoV冷作模具钢表面制备VC涂层,在摩擦磨损试验机上考察VC涂层与钢球、钢柱和陶瓷球配副时的摩擦磨损性能,利用扫描电镜、粗糙度测量仪和X射线衍射仪(XRD)分析涂层磨损前后表面及界面的形貌、表面粗糙度和物相组成.结果表明,与不同摩擦副配副时,VC涂层摩擦因数随着磨损时间增加先增大后趋于平稳,磨损率随着磨损时间增加而减小,其中与钢柱配副时摩擦因数最小,磨损率最低.与不同摩擦副配副时,VC涂层磨损机制与失效形式不同,与钢球配副时VC涂层磨损机制为磨粒磨损,失效形式为划痕和剥落坑;与钢柱配副时VC涂层磨损机制为黏着磨损和疲劳磨损,失效形式为犁沟和片层状剥落;与陶瓷球配副时VC涂层磨损机制为氧化磨损,失效形式为脆性断裂.     

列车车轮多边形磨损及其噪音研究综述

介绍了近年来国内外关于列车出现的车轮多边形磨损及其产生噪音的研究概况,解释了车轮多边形磨损的相关概念和定义,列出了多边形磨损产生的原因以及多边形磨损与噪音之间的关系。国内外关于车轮多边形磨损的相关研究,主要集中于车轮多边形磨损对轮轨动力学的影响、车轮多边形磨损的产生和发展机理以及车轮多边形磨损的检测和评估三方面。笔者从车辆振动产生的噪音、车轮多边形磨损产生的振动和车轮多边形磨损产生的噪音三方面对噪音、振动与车轮多边形磨损之间的关系进行了综述,总结了国内外关于列车维修方面的研究进展,为发生车轮多边形磨损的列车检修提供建议。     

Mg97Zn1Y2镁合金的高温磨损行为

对Mg97Zn1Y2合金的室温磨损行为已有研究,但是缺乏高温磨损研究,探究该合金高温磨损行为是非常必要的。采用MG-2000型销-盘磨损试验机对Mg97Zn1Y2合金进行磨损试验,试验温度范围为20~200℃,加载范围为20~320 N,探究不同温度以及载荷对Mg97Zn1Y2合金磨损行为的影响。根据试验数据绘制不同温度下的磨损率曲线;应用SEM观察磨损表面形貌,应用EDS分析磨损表面的化学成分,划分磨损区间。结果表明：随着温度的升高,Mg97Zn1Y2合金的磨损率随载荷的增加而上升得更加显著,磨损行为可以分为轻微磨损和严重磨损两个阶段：轻微磨损阶段的磨损机制为：磨粒磨损、剥层磨损、氧化磨损;严重磨损阶段为严重的塑性变形和表面熔化。绘制了磨损机制转变图,划分该合金的安全工作区间,为该合金在高温下的摩擦学应用提供有益参考。     

Friction and wear behavior of human teeth under various wear conditions

Previous reports have described the differences in the friction and wear behavior between different zones of human teeth. The objective of this research was to study the friction and wear behavior of human teeth under different wear conditions to extend the understanding of the tooth wear process, as well as to provide a more rational explanation for wear mechanism of teeth. Two typical wear tests, namely two- and three-body wear, were conducted on human tooth enamel using a reciprocating apparatus. The effect of food particles was of particular interest. Three loads, 10, 20 and 40 N, were used. Wear was assessed by sample wear volume. The results show that human tooth enamel exhibits lower friction and smaller wear volume under three-body wear conditions than under two-body wear conditions. Under three-body wear conditions, although increasing normal load results in a progressive increase in the wear volume of enamel, the increasing rate is lower at high load than that under two-body wear conditions. Further analysis of wear surfaces indicates that human tooth enamel experiences different wear mechanisms under different wear conditions.     

Gradation of oxidational wear of metals

This paper considers mild-oxidational wear of metals by studying their behavior under friction with different loads. Low carbon, steel and copper are chosen as the model materials. We show that tribo-oxidation and the structure of surface layers of materials, both formed in the process of plastic deformation during friction, provide the boundary conditions of mild and severe wear. Oxidational wear is predominant when structural changes are minimal. As the load increases, oxidational wear is at first accompanied by metallic wear and afterwards the oxidational wear accompanies the metallic wear. The structure of the metal surface layers changes gradually during these processes, so that the strengthening of the metal is high enough to withstand friction forces. When the magnitude of frictional forces becomes higher than the maximal strength of the plastically deformed metal, the transition to severe wear occurs.The composition of different types of oxides and the fineness of wear particles varies with the friction conditions. Under light load friction conditions, fine wear particles are formed. These particles contain oxides of high oxygen content. As the friction conditions become tougher, in particular when the load increases, large-sized wear particles are formed. These particles contain oxides of a higher metal content. Phase composition and fineness of wear particles are used for gradation of mild wear.Analyses of phase composition of oxides and estimation of the fineness of wear particles are suggested as a method of wear character diagnostics. The electron diffraction method of the study of wear particles is used for this analysis in order to evaluate and choose appropriate friction and wear conditions.     

浸渍石墨材料在不同法向载荷下的磨损性能研究

研究不同摩擦体系下法向载荷对浸渍石墨的摩擦磨损特性的影响,采用扫描电子显微镜和激光共聚焦显微镜分别表征摩擦表面磨痕形貌、磨痕轮廓,对浸渍石墨与对偶球（GCr15钢球和Si3N4陶瓷球）的摩擦磨损情况与机制进行评估分析。结果表明：磨损痕迹随着施加载荷的增加而加深加宽,磨损率与法向载荷呈负相关,而摩擦因数、磨损体积则与法向载荷呈正相关;小载荷作用下石墨的磨损机制为黏着磨损和磨粒磨损,大载荷下则主要表现为黏着磨损、氧化磨损以及疲劳磨损;GCr15/石墨摩擦副相比于Si3N4/石墨摩擦副磨损率较低,在摩擦过程中形成完整、连续性更好的“第三体”转移膜减轻了磨损,对石墨基体起到保护作用。     

基于摩擦温升效应的地铁车轮磨耗特性研究

踏面制动引起车轮温度急剧上升,影响车轮材料性能和轮轨接触状态,加剧车轮磨耗。基于Archard磨耗模型,建立一个考虑摩擦温升效应的地铁车轮磨耗预测模型。模型中根据车轮材料属性与温度之间的关系,考虑摩擦温升对接触斑大小、黏滑区划分和磨耗深度的影响,可实现对高温下的车轮磨耗特性的研究。相对以往的车轮磨耗预测模型,该模型能反映温度对磨耗影响的物理本质,适合研究轮轨接触界面有较大温度(如踏面制动)时的车轮磨耗演化机理。用所建立的车轮磨耗数值预测模型,计算对比不同温度下的轮轨接触状态和车轮磨耗深度。结果表明,轮轨接触斑和滑动区面积随温度的升高而增加;温度升高使接触斑单元磨耗深度增加,当踏面温度从常温25℃增加到最高温度300℃时,最大磨耗深度0.4 nm,增幅为28.4%;车轮转动一圈后,其径向磨耗深度也随温度的升高而明显增加,最大径向磨耗深度15 nm,增幅为28.2%,同时,车轮横向位置的磨耗范围增加5.8%,为踏面制动形式的地铁车轮磨耗预测研究提供更加准确的理论模型。     

Wear of spray deposited Al–6Cu–Mn alloy under dry sliding conditions

The dry sliding wear of spray deposited Al–6Cu–Mn alloy was studied as a function of applied load in the range of 5–400 N. The variation of wear rate with applied load was obtained, from which four regions can be observed. On the basis of observations and analyses on the worn surface, the worn subsurface, the wear debris and friction coefficient, wear mechanism in different regions has been identified. Two wear regimes, i.e. mild and severe wear, were displayed in the entire applied load range. The transition from mild to severe wear occurred at a critical load. Mild wear involves three regions in the wear rate vs. load variation, and the wear in each region was controlled by different wear mechanism. With increasing load, the dominant wear mechanism in the period of mild wear displays successively oxidative wear, delamination and subsurface-cracking assisted adhesive wear. Severe wear was operated by the adhesive wear mechanism and the wear debris was formed by the shear fracture of subsurface material of the pin. The transition from mild to severe wear depended on the strength of the material of the pin adjacent to the contact surface and the strain-induced shear stress created by applied load.     

A Wear Model of Plane Sliding Pairs Based on Fatigue Contact Analysis of Asperities

Wear modeling is essential to predict and improve wear resistance of machine parts. This article presents a fatigue wear model of plane sliding pairs under dry friction. The wear model is constructed through developing a dynamic contact model of surfaces and proposing a mean fatigue damage constant of asperities. It is simpler and more practical than existing fatigue wear models because it describes the quantitative relationship between the wear behaviors of the plane sliding pairs and the main factors including the load and sliding speed, material property, friction property, and surface topography of the pairs. Furthermore, the wear model can predict the wear of each component of the sliding pairs. Reasonability and applicability of the wear model are validated via pin-on-disc wear tests. The wear model is applicable to predict the wear of the plane sliding pairs, which is characterized by friction fatigue of contact surfaces. The wear model can also be used to guide the tribological design of sliding pairs in machinery.     

Analysis for Wear Behaviors of Oxidative Wear

Sliding wear tests were performed for H13 steel and a cast steel under atmospheric conditions of 25, 200, and 400°C. XRD results identify that oxidative wear prevailed for the steels during sliding at 200–400°C. However, the oxidative wear at 200°C presented entirely different wear behaviors from the one at 400°C. With an increase of load, the oxidative wear at 200°C exhibited slowly increased and lower wear rates, despite relatively less tribo-oxides. On the contrary, although there were more tribo-oxides, the oxidative wear at 400°C presented rapidly increased and higher wear rates. The former oxidative wear could be classified into mild wear; the latter one fell beyond mild wear. The two types of oxidative wear universally existed; their discrepancies were mainly attributed not to the tribo-oxides, but to the extent of softening and deformation of substrate. Hence, we suggested that the two types of oxidative wear should be distinguished in the coming research, and were termed oxidative mild wear and oxidative wear, respectively.     

Intelligent identification of wear mechanism via on-line ferrograph images

Condition based maintenance（CBM） issues a new challenge of real-time monitoring for machine health maintenance. Wear state monitoring becomes the bottle-neck of CBM due to the lack of on-line information acquiring means. The wear mechanism judgment with characteristic wear debris has been widely adopted in off-line wear analysis; however, on-line wear mechanism characterization remains a big problem. In this paper, the wear mechanism identification via on-line ferrograph images is studied. To obtain isolated wear debris in an on-line ferrograph image, the deposition mechanism of wear debris in on-line ferrograph sensor is studied. The study result shows wear debris chain is the main morphology due to local magnetic field around the deposited wear debris. Accordingly, an improved sampling route for on-line wear debris deposition is designed with focus on the self-adjustment deposition time. As a result, isolated wear debris can be obtained in an on-line image, which facilitates the feature extraction of characteristic wear debris. By referring to the knowledge of analytical ferrograph, four dimensionless morphological features, including equivalent dimension, length-width ratio, shape factor, and contour fractal dimension of characteristic wear debris are extracted for distinguishing four typical wear mechanisms including normal, cutting, fatigue, and severe sliding wear. Furthermore, a feed-forward neural network is adopted to construct an automatic wear mechanism identification model. By training with the samples from analytical ferrograph, the model might identify some typical characteristic wear debris in an on-line ferrograph image. This paper performs a meaningful exploratory for on-line wear mechanism analysis, and the obtained results will provide a feasible way for on-line wear state monitoring.     

基于Archard模型的车轮磨耗对车辆动力学性能的影响

为了研究车轮磨耗对高速列车动力学性能的影响,建立了车辆动力学和车轮磨耗耦合模型。考虑车辆通过一条由直线和曲线组成的典型线路工况,采用Non-elliptic模型计算轮轨接触斑上的车轮磨耗量,以累积车轮型面磨耗量及更新型面外形。采用Archard磨耗模型研究车轮面磨耗的分布与发展,以车轮踏面磨耗深度达到0.1mm为型面更新的条件进入下一个磨耗循环的计算。最后加载磨耗后的车轮型面,研究磨耗对车辆系统通过曲线线路时的动力学性能的影响。     

Investigation of abrasive wear resistance and wear mechanism of composite alloys

The abrasive wear resistance of composite alloys comprising hard tungsten carbide and soft CuNiMn matrix under different wear conditions has been investigated and compared with CrMo cast iron. It was found that Yz-composite alloy with hard cast angular tungsten carbide has greater wear resistance than CrMo cast iron under two-body wear conditions, but lower resistance than Cr-Mo cast iron under three-body wear conditions. It was found that under three-body wear conditions selective wear of the matrix and digging or fragmentation of tungsten carbide particles dominate in Yz-composite alloy, and microcutting and deformed ploughing is dominant under two-body wear conditions. The abrasive wear resistance of composite alloys under two-body wear condition is independent of bulk hardness, but is closely related to the microhardness of tungsten carbide.