1、毕业设计外文资料翻译题 目 汽车差速器小齿轮轴的失效分析学 院 机械工程学院 专 业 机械工程(车辆工程方向) 班 级 学 生 学 号 指导教师 二一七年三月二十日济南大学毕业设计外文资料翻译- 1 -Engineering Failure Analysis 13 (2006) 14221428汽车差速器小齿轮轴的失效分析H. Bayrakceken *Afyon Kocatepe University, Technical Education Faculty, 03200 Afyon, Turkey摘 要 Differential is used to decrease the speed
2、and to provide moment increase for transmitting the movement coming from the engine to the wheels by turning it according to the suitable angle in vehicles and to provide that inner and outer wheels turn differently. Pinion gear and shaft at the entrance are manufactured as a single part whereas the
3、y are in different forms according to automobile types. Mirror gear which will work with this gear should become familiar before the assembly. In case of any breakdown, they should be changed as a pair. Generally, in these systems there are wear damages in gears. The gear inspected in this study has
4、 damage as a form of shaft fracture.In this study, failure analysis of the differential pinion shaft is carried out. Mechanical characteristics of the material are obtained first. Then, the microstructure and chemical compositions are determined. Some fractographic studies are carried out to asses t
5、he fatigue and fracture conditions.关键词 Differential; Fracture; Power transfer; Pinion shaft1. IntroductionThe final-drive gears may be directly or indirectly driven from the output gearing of the gearbox. Directly driven final drives are used when the engine and transmission units are combined toget
6、her to form an integral construction. Indirectly driven final drives are used at the rear of the vehicle being either sprung and attached to the body structure or unsprung and incorporated in the rear-axle casing. The final-drive gears are used in the transmission system for the following reasons 1:
7、(a) to redirect the drive from the gearbox or propeller shaft through 90 and,(b) to provide a permanent gear reduction between the engine and the driving road-wheels.In vehicles, differential is the main part which transmits the movement coming from the engine to the wheels. On a smooth road, the mo
8、vement comes to both wheels evenly. The inner wheel should turn less and the outer wheel should turn more to do the turning without lateral slipping and being flung. Differential, which is generally placed in the middle part of the rear bridge, consists of pinion gear, mirror gear,differential box,
9、two axle gear and two pinion spider gears.A schematic illustration of a differential is given in Fig. 1. The technical drawing of the fractured pinion shaft is also given in Fig. 2. Fig. 3 shows the photograph of the fractured pinion shaft and the fracture section is indicated.In differentials, mirr
10、or and pinion gear are made to get used to each other during 济南大学毕业设计外文资料翻译- 2 -manufacturing and the same serial number is given. Both of them are changed on condition that there are any problems. In these systems, the common damage is the wear of gears 24. In this study, the pinion shaft of the di
11、fferential of a minibus has been inspected. The minibus is a diesel vehicle driven at the rear axle and has a passenger capacity of 15 people. Maximum engine power is 90/4000 HP/rpm, and maximum torque is 205/1600 Nm/rpm. Its transmission box has manual system (5 forward, 1 back). The damage was cau
12、sed by stopping and starting the minibus at a traffic lights. In this differential, entrance shaft which carries the pinion gear was broken. Various studies have been made to determine the type and possible reasons of the damage.These are:studies carried out to determine the material of the shaft;st
13、udies carried out to determine the micro-structure;studies related to the fracture surface.There is a closer photograph of the fractured surfaces and fracture area in Fig. 4. The fracture was caused by taking out circular mark gear seen in the middle of surfaces.Fig. 1. Schematic of the analysed dif
14、ferential.Fig. 2. Technical drawing of the analysed pinion shaft济南大学毕业设计外文资料翻译- 3 -Fig. 3. The picture of the undamaged differential pinion analysed in the studyFig. 4. Photographs of failed shaft2. Experimental procedure Specimens extracted from the shaft were subjected to various tests including h
15、ardness tests and metallographic and scanning electron microscopy as well as the determination of chemical composition. All tests were carried out at room temperature.2.1. Chemical and metallurgical analysis Chemical analysis of the fractured differential material was carried out using a spectromete
16、r. The chemical composition of the material is given in Table 1. Chemical composition shows that the material is a low alloy carburising steel of the AISI 8620 type.Hardenability of this steel is very low because of low carbon proportion. Therefore, surface area becomes hard and highly enduring, and
17、 inner areas becomes tough by increasing carbon proportion on the surface area with cementation operation. This is the kind of steel which is generally used in mechanical parts subjected do torsion and bending. High resistance is obtained on the surface and high fatigue endurance value can be obtain
18、ed with compressive residual stress by making the surface harder 57.In which alloy elements distribute themselves in carbon steels depends primarily on the compound- and carbide-forming tendencies of each element. Nickel dissolves in the a ferrite of the steel since it has less tendency to form carb
19、ides than iron. Silicon combines to a limited extent with the oxygen present in the steel to form nonmetallic inclusions but otherwise dissolves in the ferrite. Most of the manganese added to carbon steels dissolves in the ferrite. Chromium, which has a somewhat stronger carbide-forming tendency tha
20、n iron, partitions between the ferrite and carbide phases. The distribution of chromium 济南大学毕业设计外文资料翻译- 4 -depends on the amount of carbon present and if other stronger carbide-forming elements such as titanium and columbium are absent. Tungsten and molybdenum combine with carbon to form carbides if
21、 there is sufficient carbon present and if other stronger carbide-forming elements such as titanium and columbium are absent. Manganese and nickel lower the eutectoid temperature 8.Preliminary micro structural examination of the failed differential material is shown in Fig. 5. It can be seen that th
22、e material has a mixed structure in which some ferrite exist probably as a result of slow cooling and high Si content. High Si content in this type of steel improves the heat treatment susceptibility as well as an improvement of yield strength and maximum stress without any reduction of ductility 9.
23、 If the microstructure cannot be inverted to martensite by quenching, a reduction of fatigue limit is observed.Table 1 Chemical analysis of the pinion gear material (wt%)Distance from surface (lm) 50 100 200 400 CenterValues HV (4903N) 588 410 293 286 263Fig. 5. Micro structure of the material (200)
24、.There are areas with carbon phase in Fig. 5(a). There is the transition boundary of carburisation in Fig. 5(b) and (c) shows the matrix region without carburisation. As far as it is seen in these photographs, the piece was first carburised, then the quenching operation was done and than tempered. T
25、his situation can be understood from blind martensite plates.2.2. Hardness testsThe hardness measurements are carried out by a MetTest-HT type computer integrated hardness tester. The load is 1471 N. The medium hardness value of the interior regions is obtained as 43 HRC. Micro hardness measurements
26、 have been made to determine the chance of hardness values along the cross-section because of the hardening of surface area due to carburisation. The results of Vickers hardness measurement under a load of 4.903 N are illustrated in Table 2.2.3. Inspection of the fractureThe direct observations of t
27、he piece with fractured surfaces and SEM analyses are given in this chapter. The crack started because of a possible problem in the bottom of 济南大学毕业设计外文资料翻译- 5 -notch caused the shaft to be broken completely. The crack started on the outer part, after some time it continued beyond the centre and the
28、re was only a little part left. And this part was broken statically during sudden starting of the vehicle at the traffic lights. As a characteristic of the fatigue fracture, there are two regions in the fractured surface. These are a smooth surface created by crack propagation and a rough surface cr
29、eated by sudden fracture. These two regions can be seen clearly for the entire problem as in Fig. 4. The fatigue crack propagation region covers more than 80% of the cross-section.Table 2 Micro hardness valuesDistance from surface (lm) 50 100 200 400 CenterValues HV (4903N) 588 410 293 286 263Fig. 6
30、. SEM image of the fracture surface showing the ductile shear.Fig. 7. SEM image of the fracture surface showing the beach marks of the fatigue crack propagation.Shaft works under the effect of bending, torsion and axial forces which affect repeatedly depending on the usage place. There is a sharp fi
31、llet at level on the fractured section. For this reason, stress concentration factors of the area have been determined. Kt = 2.4 value (for bending and tension) and Kt = 1.9 value (for torsion) have been acquired according to calculations. These are quite high values for areas exposed to combined lo
32、ading.These observations and analysis show that the piece was broken under the influence of torsion with low nominal stresses and medium stress concentration 10.The scanning electron microscopy shows that the fracture has taken place in a ductile 济南大学毕业设计外文资料翻译- 6 -manner (Fig. 6). There are some sh
33、ear lips in the crack propagation region which is a glue of the plastic shear deformations. Fig. 7 shows the beach marks of the fatigue crack propagation. The distance between any two lines is nearly 133 nm.3. ConclusionsA failed differential pinion shaft is analysed in this study. The pinion shaft
34、is produced from AISI 8620 low carbon carburising steel which had a carburising, quenching and tempering heat treatment process. Mechanical properties, micro structural properties, chemical compositions and fractographic analyses are carried out to determine the possible fracture reasons of the comp
35、onent. As a conclusion, the following statements can be drawn:The fracture has taken place at a region having a high stress concentration by a fatigue procedure under a combined bending, torsion and axial stresses having highly reversible nature.The crack of the fracture is initiated probably at a m
36、aterial defect region at the critical location.The fracture is taken place in a ductile manner.Possible later failures may easily be prevented by reducing the stress concentration at the critical location.AcknowledgementThe author is very indebted to Prof. S. Tasgetiren for his advice and recommenda
37、tions during the study.References1 Heisler H. Vehicle and engine technology. 2nd ed. London: SAE International; 1999.2 Makevet E, Roman I. Failure analysis of a final drive transmission in off-road vehicles. Eng Failure Anal 2002;9:57992.3 Orhan S, Akturk N. Determination of physical faults in gearb
38、ox through vibration analysis. J Fac Eng Arch Gazi University2003;18(3):97106.4 Tasgetiren S, Aslantas K, Ucun I. Effect of press-fitting pressure on the fatigue damages of root in spur gears. Technol Res: EJMT2004;2:219.5 Nanawarea GK, Pableb MJ. Failures of rear axle shafts of 575 DI tractors. Eng
39、 Failure Anal 2003;10:71924.6 Aslantas K, Tasgetiren S. A study of spur gear pitting formation and life prediction. Wear 2004;257:116775.7 Savas V, O zek C. Investigation of the distribution of temperature on a shaft with respect to the deflection. Technol Res: EJMT济南大学毕业设计外文资料翻译- 7 -2005;1:338.8 Sm
40、ith FW. Principles of materials science and engineering. 3rd ed. USA: McGraw-Hill Series; 1996. p. 51718.9 ASM metal handbook, vol. 1. Properties and selection, irons, steels, and high performance alloys; 1991.10 Voort GFV. Visual examination and light microscopy. ASM handbook metallography and micr
41、ostructures. Materials Park(OH): ASM International; 1991. p. 10065.Engineering Failure Analysis 13 (2006) 14221428济南大学毕业设计外文资料翻译- 8 -汽车差速器小齿轮轴的失效分析H. Bayrakceken *Afyon Kocatepe University, Technical Education Faculty, 03200 Afyon, Turkey摘 要 差速器用于降低速度并且增加力矩将来自发动机的动力通过适当角度转动而将其动力传递到车轮,并且实现内轮和外轮不同的转向。
42、 在入口处的小齿轮和轴被制造为单个部件,而它们根据汽车类型而具有不同的形式。 在装配前应该熟悉使用该齿轮的镜齿轮。 如果发生故障,应将一对全部更换。 通常,在这些系统中,在齿轮中存在磨损。 在本研究中检查的齿轮发生了轴断裂形式的损坏。此外,此次研究还进行了差速器小齿轮轴的失效分析。首先,了解材料的机械特点,然后确定其微观结构和化学成分,另外还要做一些显微镜观察研究来评估其疲劳和破损状况。关键词 差速器;破损;动力分配装置;小齿轮轴1. 介绍最终传动齿轮可能直接或间接地由齿轮箱输出齿轮传递的动力驱动。当引擎和传输设备结合在一起,形成统一结构时,就需要使用直接驱动的最终传动齿轮。 间接驱动的最终传
43、动装置在车辆的后部使用,被弹簧支撑并附接到车身结构中,或者被悬挂在后桥轴壳体中。 最终传动齿轮用于传动系统,原因如下1:(a)为了使齿轮箱或者传动轴的动力实现 90转向。(b)为了提供引擎和驱动轮之间永久的齿轮减速。在汽车中,差速器是将动力从引擎传输到车轮的主要部件。在平坦的道路上,运动会平均分配给两个轮子。内侧车轮转动的程度小一些, 外侧车轮转向程度应该大一些, 这样转弯才不会侧滑。差速器通常置于后桥中部,由游星齿轮、镜面齿轮、差速器箱、轴齿轮和两个游星蜘蛛齿轮构成。图表一是差速器的示意图,图表二是断裂的小齿轮轴的技术图解,图表三是断裂的小齿轮轴的图片,表示出了断裂部分。在差速器里,人们生产
44、时使镜面和流星齿轮可以相互适应,并且使用相同的序列号。出现问题的话,二者都要更换。在这些系统中,常见的损伤是齿轮磨损。本研究检查了一辆小型巴士的差速器小齿轮轴。该小型巴士是后轴驱动的柴油汽车,可搭载 15 名乘客。发动机最大功率是 90/4000 HP/rpm,最大扭转力是 205/1600 Nm/rpm 。传动箱里有手动操作系统 (5 个向前,一个向后)。损伤是由巴士在交通灯停止和启动时引起的。在差速器中,驱动流星齿轮的输入轴断裂。人们做了各种各样的研究来确定这种损伤的类型和可能的原因。确定损伤原因的研究方向有:确定轮轴材料的研究确定微观结构的研究济南大学毕业设计外文资料翻译- 9 -与断裂面相关的研究图四是断裂表面和断裂区域的近距离照片。这个断裂是将表面中心的圆形标记齿轮取走形成的。图 1 . 进行分析的差速器的图解图 2 进行分析的小齿轮轴的技术图解图 3 研究中进行分析的完好小齿轮轴的图片
