汽车差速器英文版原件

汽车差速器中英文对照外文翻译文献 FailureanalysisofanautomobiledifferentialpinionshaftAbstractDifferentialisusedtodecreasethespeedandtoprovidemomentincreasefortransmittingthecomingfromtheenginetothewheelsbyturning itaccording tothesuitable angleinvehicles andtoprovide thatinnerandouterturndifferently. Piniongearandshaftattheentrancearemanufactured asasinglepartwhereastheyareindifferentformsaccordingtoautomobileMirrorgearwhichwillworkwiththisgearshouldbecomefamiliar beforetheassembly. Incaseofanybreakdown, theyshouldbechangedasapair.Generally, inthesesystemsthereareweardamagesingears.Thegearinspected inthisstudyhasdamageasaformofshaftfracture.Inthisstudy,failureanalysisofthedifferentialpinionshaftiscarriedout.Mechanicalcharacteristics ofthematerialareobtainedfirst.Then,themicrostructure andchemicalcompositionsaredetermined.Somefractographicstudiesare2020ElsevierLtd.Allrightsreserved.Keywords: Differential;Fracture;Powertransfer;Pinionshaft1.IntroductionThefinal-drivegearsbedirectlyorindirectly drivenfromtheoutputgearingofthegearbox.Directlydrivenfinaldrivesareusedwhentheengineandtransmission unitscombinedtogethertoformanintegralconstruction. Indirectlydrivenfinaldrivesareusedattherearofthevehiclebeingeithersprungandattachedthebodystructureorunsprungandincorporated intherear-axlecasing.Thefinal-drive gearsareusedinthetransmission systemforthefollowingreasons[1]:(a)toredirectthedrivefromthegearboxorpropeller shaftthrough90°and,(b) toprovideapermanent gearreduction betweentheengineandtheroad-wheels. Invehicles,differential isthemainpartwhichtransmitsthemovementcomingfromtheenginetothewheelsOnasmoothroad,thecomes tobothwheels evenly. Theinner wheel should turnlessandtheouter wheel should turnmoretodotheturning without lateralslippingandbeingflung.Differential, whichisgenerallyplacedinthemiddlepartoftherearbridge,consistsofpiniongear,mirrorgear,differential box,twoaxlegearandtwopinionspidergears.Aschematicillustration ofadifferential isgiveninFig,1.ThetechnicaldrawingofpinionthefracturedshaftisalsogiveninFig,2,Fig.3showsthephotographofthefracturedpinionshaftandthefracturesectionisindicated.In differentials,andpiniongeararemadetogetusedtoeachotherduringmanufacturing andthesameserialnumberisgiven.Bothofthemareoncondition thatthereareanyproblems. Inthesesystems, thecommondamageisthewearofgears[2-4].Inthisstudy,thepinionofthedifferential ofaminibushasbeeninspected. Theminibusisadieselvehicledrivenattherearaxleandhasapassengercapacityof15people.Maximumenginepoweris90/4000HP/rpm,andmaximumtorqueis205/1600Nm/rpm.Itstransmission boxhasmanualsystem(5forward,1back).Thedamagewascausedbystoppingandstartingtheminibusatatrafficlights.Inthisdifferential, entranceshaftwhichcarriesthepiniongearwasbroken. Various studies havebeenmadetodetermine thetypeandpossible reasons ofthedamage. Theseare:?studies carried outtodetermine thematerialoftheshaft;?studiescarriedouttodeterminethemicro-structure; ?studiesrelatedtothefracturesurface.Thereisacloserphotographofthefractured surfacesandfractureareainFig.4.Thefracturewascausedbytakingoutcircularmarkgearseeninthemiddleofsurfaces.2.ExperimentalprocedureSpecimens extractedfromtheshaftweresubjectedtovarioustestsincludinghardnesstestsandmetallographicandscanningelectronmicroscopyaswellasthedeterminationofchemicalcomposition.Alltestswerecarriedoutatroomtemperature.2.1 Chemicalandmetallurgical analysisChemicalanalysisofthefractureddifferentialmaterialwascarriedoutusingaspectrometer. Thechemicalcomposition ofthematerialisgiveninTable1.Chemicalcomposition showsthatthematerialisalowalloycarburizing steeloftheAISI8620type.Hardenability ofthissteelisverylowbecauseoflowcarbonproportion.Therefore,surfaceareabecomeshardandhighlyenduring,andinnerareasbecomestoughbyincreasing carbonproportion onthesurfaceareawithcementation operation. Thisisthekindofsteelwhichisgenerally usedinmechanical partssubjected dotorsionandbending.Highresistance isobtainedonthesurfaceandhighfatigueendurance valuecanbeobtainedwithcompressiveresidual stressbymakingthesurfaceharder[5-7].In whichalloyelements distribute themselves incarbonsteelsdependsprimarily onthecompound andcarbideformingtendencieseachelement. Nickeldissolves intheαferrite ofthesteelsinceithaslesstendency toformcarbides thanironSilicon combines tolimitedextentwiththeoxygenpresentinthesteeltoformnonmetallic inclusions butotherwise dissolves intheferrite.Mostofthemanganese addedcarbonsteelsdissolvesintheferrite.Chromium,whichhasasomewhatstrongercarbide-forming dependsontheiron,partitionsbetweentheferriteandcarbidephases.distributionofchromiumdependsontheamountofcarbonpresentandifotherstrongercarbide-forming elementssuchastitaniumandcolumbiumamountofcarbonpresentandifotherstrongercarbide-forming elementssuchastitaniumandcolumbiumareabsent.Tungstenandmolybdenumcombinewithcarbontoformcarbidesisthereissufficientcarbonpresentandifotherstrongercarbide-forming elementssuchdatitaniumandcolumbiumareabsent.Manganeseandnickellowertheeutectoidtemperature[8].Preliminarystructural examination ofthefaileddifferential materialisshowninFig.5.Itcanbeseenthatthematerialhasamixedstructureinsomeferrite existprobably asaresult ofslowcooling andhighSicontent. HighSicontent inthistypeofsteelimproves thetreatmentsusceptibility aswellasanimprovementofyieldstrengthandmaximumstresswithoutanyreductionofductility[9].Ifthemicro-structure cannotbeinvertedtomartensitebyquenching,areductionoffatiguelimitisobserved.There areareaswithcarbonphaseinFig.5(a).ThereisthetransitionboundaryofinFig.5(b)and(c)showsthematrixregionwithoutcarburization. Asfarasitisseenintherephotographs, thepiecewasfirstthenthequenchingoperationwasdonethantempered.Thissituationcanbeunderstood fromblindmartensite plates.2.2 HardnesstestsThehardnessmeasurements arecarriedoutbyaMetTest-HT typecomputer integrated hardness tester.Theloadis1471N.Themediumhardness valueoftheinterior regionsisobtained asobtainedas43HRC.Microhard-nessmeasurements havebeenmadetodeterminethechanceofhardnessvaluesalongcross-section be-causeofthehardeningofsurfaceduetocarburization. TheresultsofVickershardnessmeasurementunderaloadof4.903NareillustratedinTable2.2.3Inspectionofthefracturedirectobservations ofthepiecewithfracturedsurfacesandSEManalysesaregiveninthischapter.Thecrackstartedbecauseofapossibleproblemthebottomofnotchcausedtheshafttobebrokencompletely. Thecrackstartedontheouterpart,aftersometimeitcontinued beyondcentreandtherewasonlyalittlepartleft.Andthispartwasbrokenstatically duringsuddenstarting ofthevehicleatthetrafficlights.Asacharacteristic ofthefatigue,therearetworegionsinthefracturedsurface.Theseareasmoothsurfacecreatedbycrackpropagation。

附录A 英文文献Drive axle/differentialAll vehicles have some type of drive axle/differential assembly incorporated into the driveline. Whether it is front, rear or four wheel drive, differentials are necessary for the smooth application of engine power to the road.PowerflowThe drive axle must transmit power through a 90°angle. The flow of power in conventional front engine/rear wheel drive vehicles moves from the engine to the drive axle in approximately a straight line. However, at the drive axle, the power must be turned at right angles (from the line of the driveshaft) and directed to the drive wheels.This is accomplished by a pinion drive gear, which turns a circular ring gear. The ring gear is attached to a differential housing, containing a set of smaller gears that are splined to the inner end of each axle shaft. As the housing is rotated, the internal differential gears turn the axle shafts, which are also attached to the drive wheels.Fig 1 Drive axleRear-wheel driveRear-wheel-drive vehicles are mostly trucks, very large sedans and many sports car and coupe models. The typical rear wheel drive vehicle uses a front mounted engine and transmission assemblies with a driveshaft coupling the transmission to the rear drive axle. Drive in through the layout of the bridge, the bridge drive shaft arranged vertically in the same vertical plane, and not the drive axle shaft, respectively, in their own sub-actuator with a direct connection, but the actuator is located at the front or the back of the adjacent shaft of the two bridges is arranged in series. Vehicle before and after the two ends of the driving force of the drive axle, is the sub-actuator and the transmission through the middle of the bridge. The advantage is not only a reduction of the number of drive shaft, and raise the driving axle of the common parts of each other, and to simplify the structure, reduces the volume and quality.Fig 2 Rear-wheel-drive axleSome vehicles do not follow this typical example. Such as the older Porsche or Volkswagen vehicles which were rear engine, rear drive. These vehicles use a rear mounted transaxle with halfshafts connected to the drive wheels. Also, some vehicles were produced with a front engine, rear transaxle setup with a driveshaft connecting the engine to the transaxle, and halfshafts linking the transaxle to the drive wheels.Differential operationIn order to remove the wheel around in the kinematics due to the lack of co-ordination about the wheel diameter arising from a different or the same rolling radius of wheel travel required, inter-wheel motor vehicles are equipped with about differential, the latter to ensure that the car driver Bridge on both sides of the wheel when in range with a trip to the characteristics of rotating at different speeds to meet the requirements of the vehicle kinematics.Fig 3 Principle of differentialThe accompanying illustration has been provided to help understand how this occurs.1.The drive pinion, which is turned by the driveshaft, turns the ring gear.2.The ring gear, which is attached to the differential case, turns the case.3.The pinion shaft, located in a bore in the differential case, is at right angles to the axle shafts and turns with the case.4.The differential pinion (drive) gears are mounted on the pinion shaft and rotate with the shaft .5.Differential side gears (driven gears) are meshed with the pinion gears and turn with the differential housing and ring gear as a unit.6.The side gears are splined to the inner ends of the axle shafts and rotate the shafts asthe housing turns.7.When both wheels have equal traction, the pinion gears do not rotate on the pinion shaft, since the input force of the pinion gears is divided equally between the two side gears.8.When it is necessary to turn a corner, the differential gearing becomes effective and allows the axle shafts to rotate at different speeds .Open-wheel differential on each general use the same amount of torque. To determine the size of the wheel torque to bear two factors: equipment and friction. In dry conditions, when a lot of friction, the wheel bearing torque by engine size and gear restrictions are hours in the friction (such as driving on ice), is restricted to a maximum torque, so that vehicles will not spin round. So even if the car can produce more torque, but also need to have sufficient traction to transfer torque to the ground. If you increase the throttle after the wheels slip, it will only make the wheels spin faster.Fig 4 Conventional differentialLimited-slip and locking differential operationFig 5 Limited-slip differentialDifferential settlement of a car in the uneven road surface and steering wheel-driven speed at about the different requirements; but is followed by the existence of differential in the side car wheel skid can not be effective when the power transmission, that is, the wheel slip can not produce the driving force, rather than spin the wheel and does not have enough torque. Good non-slip differential settlement of the car wheels skid on the side of the power transmission when the issue, that is, locking differential, so that no longer serve a useful differential right and left sides of the wheel can be the same torque.Limited-slip and locking differential operation can be divided into two major categories：(1) mandatory locking type in ordinary differential locking enforcement agencies to increase, when the side of the wheel skid occurs, the driver can be electric, pneumatic or mechanical means to manipulate the locking body meshing sets of DIP Shell will be with the axle differential lock into one, thus the temporary loss of differential role. Relatively simple structure in this way, but it must be operated by the driver, and good roads to stop locking and restore the role of differential.(2) self-locking differential installed in the oil viscosity or friction clutch coupling, whenthe side of the wheel skid occurs when both sides of the axle speed difference there,coupling or clutch friction resistance on the automatic, to make certain the other side of the wheel drive torque and the car continued to travel. When there is no speed difference on both sides of the wheel, the frictional resistance disappeared, the role of automatic restoration of differentials. More complicated structure in this way, but do not require drivers to operate. Has been increasingly applied in the car. About non-slip differential, not only used for the differential between the wheels, but also for all-wheel drive vehicle inter-axle differential/.Gear ratioThe drive axle of a vehicle is said to have a certain axle ratio. This number (usually a whole number and a decimal fraction) is actually a comparison of the number of gear teeth on the ring gear and the pinion gear. For example, a 4.11 rear means that theoretically, there are 4.11 teeth on the ring gear for each tooth on the pinion gear or, put another way, the driveshaft must turn 4.11 times to turn the wheels once. The role of the final drive is to reduce the speed from the drive shaft, thereby increasing the torque. Lord of the reduction ratio reducer, a driving force for car performance and fuel economy have a greater impact. In general, the more reduction ratio the greater the acceleration and climbing ability, and relatively poor fuel economy. However, if it is too large, it can not play the full power of the engine to achieve the proper speed. The main reduction ratio is more Smaller ，the speed is higher, fuel economy is better, but the acceleration and climbing ability will be poor.附录B 文献翻译驱动桥和差速器所有的汽车都装有不同类型的驱动桥和差速器来驱动汽车行驶。

差速器壳体中英文术语
English: The differential case, also known as the differential housing
or differential carrier, is a component of the differential assembly in a vehicle. It houses the gears and bearings that allow the two wheels
on an axle to rotate at different speeds while receiving torque from the drivetrain. The differential case is typically made of cast iron or aluminum and is designed to withstand the forces and stresses encountered during normal operation. It also provides support for
the ring gear, pinion gear, and other internal components of the differential.
中文翻译: 差速器壳体，也称为差速器壳或差速器承载体，是车辆差速器总
成的组成部分之一。

它容纳着齿轮和轴承，使得同一轴上的两个车轮能够在接收传动系扭矩的同时以不同的速度旋转。

差速器壳体通常由铸铁或铝制成，并且设计用于承受正常运行中遇到的力量和应力。

它还为差速器的环齿、小齿轮和其他内部组件提供支撑。

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Cylinder Block波司垫片< english> Washer活塞< english> Piston活塞肖< english> Piston Pin活塞环< english> Piston Ring活塞衬套< english> Piston Liner飞轮< english> Flywheel飞轮环齿轮< english> Ring Gear of Flywheel 时规炼条/皮带< english> Timing Chain/Belt连杆< english> Connecting Rod连杆轴承片< english> Connecting Rod Bearing 摇臂轴< english> Rocker Arm Shaft汽门锁< english> Valve Cotter止推垫片< english> Thrust Washer共鸣箱< english> Resonator喷油嘴< english> Injection Nozzle燃料系统< english> Fueling System油箱< english> Fuel Tank油箱浮筒< english> Gauge Fuel Tank空气滤清器< english> Air Cleaner空气滤清器盖< english> Air Cleaner Cover空气滤清器导管< english> Air Intake Tube空气滤蕊< english> Air Cleaner Element消音器< English> Exhaust Muffler排气歧管< English> Exhaust Manifold排气管< English> Exhaust Pipe进气歧管< English> Intake Manifold节流阀< English> Throttle Valve燃油管< English> Fuel Pipe燃油帮浦< English> Fuel Pump燃油滤清器< English> Fuel Filter触媒转化器< English> Catalytic Converter柴油车黑烟净化器< English> Diesel Particulate Filter 时规炼条/皮带外盖< English> Timing Chain/Belt Cov er燃料系统< English> Fueling System废气回收管< English> EGR Tube冷却系统< English> Cooling System水箱< English> Radiator水管< English> Water Hose水箱水管< English> Radiator Hose水帮浦< English> Water Pump水箱风扇< English> Radiator Fan风扇< English> Fan副水箱< English> Auxiliary Radiator节温器< English> Thermostat调节器< English> Regulator水箱支架< English> Radiator Mounting冷却系统< English> Cooling SystemA/C风扇< English> A/C Fan润滑系统< English> Lubrication System油底壳< English> Oil Pan自排车用滤油器< English> Oil Filter for Automatic Trans mission机油尺< English> Oil Level Gauge机油帮浦< English> Oil Pump机油滤清器< English> Oil Filter机油滤网< English> Oil Strainer润滑系统< English> Lubrication System机油尺导管< English> Oil Level Gauge Tube空调系统< English> Air-conditioning System冷气总成< English> A/C Assembly冷气配管< English> A/C Hose冷气导风管< English> A/C Duct冷气压缩机< English> A/C Compressor冷凝器< English> A/C Condenser暖气总成< English> Heater Assembly鼓风机< English> Blower Assembly蒸发器< English> Evaporator冷媒管< English> A/C Pipe储液瓶< English> A/C Receiver空调相关零件< english> A/C Related Components 空气清净机< english> Air Purifier空调滤网< english> A/C Filter空调系统< english> Air-conditioning System提速器< english> Actuator车身钣金件< english> Body & Stamping Parts引擎支撑< english> Engine Mounting引擎盖< english> Engine Hood车身< english> Car Body车门< english> Door Panel车顶板< english> Roof底盘及其另件< english> Chassis and Related Parts 底盘车架< english> Frame门框< english> Sash保险杆< english> Bumper钣金件< english> Stamping Parts叶子板< english> Fender横梁< english> Cross Member行李箱盖< english> Trunk Lid车柱< english> Pillar车身钣金件< english> Body & Stamping Parts 支架< english> Bracket补强板< english> Reinforcement Plate底盘系统< english> Chassis System下臂< english> Lower Arm上臂< english> Upper Arm手剎车拉柄< english> Parking Brake Lever支柱总成< english> Strut Assembly方向盘< english> Steering Wheel比例阀< english> Proportional Valve主轴、副轴< english> Mainshaft / Countershaft 平衡杆< english> Stabilizer Bar扭力杆< english> Torsion Bar剎车分泵< english> Brake Cylinder剎车来令片< english> Brake Lining Shoe剎车油管(软) < english> Brake Hose剎车油管(硬) < english> Brake Tube剎车真空倍力器< english> Brake Vacuum Booster剎车总泵< english> Brake Master Cylinder后轴总成< english> Rear Axle Assembly动力方向系统< english> Power Steering System动力转向油管< english> Power Steering Hose动力转向帮浦< english> Power Steering Pump控制拉线< english> Control Cable排档杆< english> Shift Lever排档头< english> Knob球形接头< english> Ball Joint等速接头< english> C.V. Joint传动轴< english> Propeller Shaft叶片弹簧< english> Leaf Spring鼓、碟式剎车器< english> Drum / Disc Brake Assembly 鼓式剎车盘< english> Brake Drum碟式剎车盘< english> Brake Disc辅助气囊< english> Air Bag踏板< english> Pedal齿轮< english> Gear横拉杆接头< english> Tie-Rod End螺旋弹簧< english> Coil Spring避震器< english> Shock Absorber转向连杆< english> Steering Linkage转向节臂< english> Knuckle转向齿轮箱< english> Steering Gear Box转向机柱< english> Steering Column转向总成< english> Steering Assembly离合器分泵< english> Clutch Cylinder离合器片< english> Clutch Disc离合器外壳< english> Clutch Case离合器总成< english> Clutch Assembly离合器总泵< english> Clutch Master Cylinder离合器释放轴承< english> Clutch Release Bearing变速箱< english> Transmission Box变速箱外壳< english> Transmission Case曳力杆< english> Trailing Arm避震器前后活塞杆< english> Piston Rod of Front and Re ar Shock Absorber底盘系统< english> Chassis System自排变速箱修理包< english> Automatic Transmission Gas ket Kits齿条< english> Gear Rack剎车真空管< english> Brake Boost Vacuum Tube。

汽车全部零部件英文翻译车轮系统Wheeling System轮毂Wheel Hub轮胎Tire轮胎汽门嘴Tire Valve轮圈Wheel Disk轮圈盖Wheel Cover车轮系统Wheeling System电装品Electrical Parts电瓶Battery中央门控Central Door Lock分电盘Distributor火星塞Spark Plug汽车用电子钟Digital Clock汽车音响Car Audio防盗器Car Burglar Alarm雨刷及雨刷连杆Wiper / Linkage保险丝座Fuse Seat保险丝Fuse洗涤壶Windshield Washer配线Wire Harness马达类Motor高压线组Ignition Cable喇叭Horn发电机Alternator (Components)开关类Switch蜂鸣器Buzzer预热塞Glow Plug仪表Combination Meter灯泡Bulb灯类Lamp点火线圈Ignition Coil继电器Relay倒车雷达Reverse Sensor电池充电器Battery Charger闪光器Flasher省电器Energy Saving Unit端子Terminal电动座椅装置Power Seat Unit马达零件Motor Components电装品Electrical Parts汽车用光盘Car CD汽车用液晶显示器Car LCD调整器Regulator整流器Rectifier电子点火器Ignition Module倒车显示器Rear View Display定速器Cruise ControllerHID车灯安定器组合HID Ballast Complete Set for Headlights LED 灯LED Lamp车灯控制器Lighting Controller点火线圈模块Ignition Coil Module外装品Exterior Parts水箱饰罩Radiator Grille天线Antenna车身护条Side Protector防撞护垫Bumper Pad后视镜Door Mirror装饰贴纸、标志Ornament Mark轮弧Fender Trim挡泥板Mud Guard扰流板Spoiler前防撞杆Guard Assy (Front)后防撞杆Grard Assy (Rear)内装品Interior Parts仪表板Instrument Panel中央置物箱Console孔塞Grommet Plug地毯Floor Mat安全带Seat Belt车门扶手Door Armrest车门把手Door Handle车门锁Door Lock车顶内衬Roof Lining车窗升降摇柄Window Lifter Handle车窗升降机Window Lifter防水衬条Weather strip油量表Fuel Gauge门饰板Door Trim室内镜Room Mirror音响喇叭盖Speaker Cover(电动)座椅(Electric) Seat顶蓬Headlining烟灰缸Ashtray各类隔音垫All Kinds of Silencer饰板/饰条Garnish / Trim仪表饰板Instrument Panel Garnish 遮阳板Sun visor压条Moulding点烟器Cigar Lighter备胎板Trim for Spare Tire天窗Sun Roof后置物板Rear Parcel Shelf后舱室饰板Rear Trunk Trim仪表板支架Instrumental Panel Mounting其它Others随车工具Tools千斤顶Jack尼龙绳、特多龙绳Nylon Rope生产、检测及涂装设备Production, Test & Painting Equipment 各类孔盖Cap、Cover扣具Cargo Lash夹片、管束Clamp, Clip油土与基准模型Clay Model and Master Model油封Oil Seal门铰链Door Hinge故障标志Reflector玻璃类Glass修理业Repairing & Maintenance 粉末冶金Powder Metallurgy轴承Bearing塑料件Plastic Parts隔热材Heat Insulator电子件Electrical Parts垫片类Seal、Gasket、Washer、Packing碳刷Carbon Brush管类Pipe, Hose, Tube铜套类Bushing弹簧Spring橡胶件Rubber Parts帮浦类Pump螺帽/螺栓/螺丝Nut/Bolt/Screw锻造件(加工)Forging Parts (Processing)滤清器类Filter锁Lock镜类> Mirror铸造件(加工)Casting Parts (Processing)引擎盖铰链Hinge of Engine Hood 行李箱铰链Hinge of Trunk Lid保险杆支撑Mount of BumperCAD/CAM车身设计CAD/CAM Car Body Design汽车清洁保养用品Cosmetics for Automobile涂料Paints合成木材Synthetic Wood电磁阀Solenoid Valve热水阀Heater Valve冷煤电磁阀Refrigerate Solenoid valve玻璃滑槽Glass Run双面胶带Acrylic Foam Tape触媒转换器缓冲绵Catalytic Converter Mate黑烟过滤器Diesel Particle Filter 车用灭火器Extinguisher零组件用材料Components Materials 汽车用行动电话Car Hand-free Mobile Phone汽车保全系统Car Security System 汽车导航系统Car Navigation System 人造革Artificial Leather铭板Nameplate汽车用计算机Car Computer无线电胎压侦测仪Wireless Tire Monitor汽车内装用牛皮Leather for Car Interior打蜡机Buffer (Car Polisher)金属表面处理(材料)Metal Surface Treatment (Material) 插接件Connector Clip胎压不足警示器Tire Low Pressure Indicator温度感应器Water Temperature Sensor油压感应器Oil Pressure Sensor机油Engine Oil自动变速箱油Automatic Transmission Oil油品添加剂Oil Additive热处理Heat Treatment传动件Transmission曲柄组Chainwheel & Crank飞轮Flywheel链条Chain变速杆Shift Lever变速器Derailleur电动自行车马达Electric Bicycle Motor电动自行车控制器Electric Bicycle Driver齿轮箱Gear Box车轮及剎车Wheel and Brake轮胎Tire夹式剎车器Caliper Brake快拆Quick Release花鼓Hub & Free Hub液压式剎车器Hydraulic Brake脚剎车器Coaster Brake碟式剎车器Disk Brake轮圈Rim辐条/辐帽Spoke/Nipple悬臂式剎车器Cantilever Brake 控制拉线Control Cable剎车来令片Brake Lining Shoe 配件Accessories铃Bell反光片Reflector水壶架Bottle Cage打气筒Floor Pump商标贴纸Sticker货架Luggage Carrier速度表Speed Meter车体打造(改装)Car Body Building (Refitting)引擎Engine引擎波司Engine Bush引擎修理包Engine Gasket Kits引擎零件Engine Parts凸轮轴Camshaft凸轮轴链轮Sprocket Camshaft皮带张力器Tensioner曲轴Crankshaft曲轴皮带盘Crankshaft Pulley曲轴轴承片Crankshaft Bearing汽门Valve汽门座Valve Seat汽门摇臂Valve Arm汽门摇臂盖Rocker Cover汽门弹簧Valve Spring汽门导管Valve Guide汽缸头(盖) Cylinder Head汽缸衬套Cylinder Liner汽缸体Cylinder Block波司垫片Washer活塞Piston活塞肖Piston Pin活塞环Piston Ring活塞衬套Piston Liner飞轮Flywheel飞轮环齿轮Ring Gear of Flywheel 时规炼条/皮带Timing Chain/Belt连杆Connecting Rod连杆轴承片Connecting Rod Bearing 摇臂轴Rocker Arm Shaft汽门锁Valve Cotter止推垫片Thrust Washer共鸣箱Resonator喷油嘴Injection Nozzle燃料系统Fueling System油箱Fuel Tank油箱浮筒Gauge Fuel Tank空气滤清器Air Cleaner空气滤清器盖Air Cleaner Cover 空气滤清器导管Air Intake Tube 空气滤蕊Air Cleaner Element 消音器Exhaust Muffler排气歧管Exhaust Manifold排气管Exhaust Pipe进气歧管Intake Manifold节流阀Throttle Valve燃油管Fuel Pipe燃油帮浦Fuel Pump燃油滤清器Fuel Filter触媒转化器Catalytic Converter 柴油车黑烟净化器Diesel Particulate Filter时规炼条/皮带外盖Timing Chain/Belt Cover燃料系统Fueling System废气回收管EGR Tube冷却系统Cooling System水箱Radiator水管Water Hose水箱水管Radiator Hose水帮浦Water Pump水箱风扇Radiator Fan风扇Fan副水箱Auxiliary Radiator节温器Thermostat调节器Regulator水箱支架Radiator Mounting冷却系统Cooling SystemA/C风扇A/C Fan润滑系统Lubrication System油底壳Oil Pan自排车用滤油器Oil Filter for Automatic Transmission 机油尺Oil Level Gauge机油帮浦Oil Pump机油滤清器Oil Filter机油滤网Oil Strainer润滑系统Lubrication System机油尺导管Oil Level Gauge Tube空调系统Air-conditioning System冷气总成A/C Assembly冷气配管A/C Hose冷气导风管A/C Duct冷气压缩机A/C Compressor冷凝器A/C Condenser暖气总成Heater Assembly鼓风机Blower Assembly蒸发器Evaporator冷媒管< English> A/C Pipe储液瓶< English> A/C Receiver空调相关零件A/C Related Components空气清净机Air Purifier空调滤网A/C Filter空调系统Air-conditioning System提速器Actuator车身钣金件Body & Stamping Parts引擎支撑Engine Mounting引擎盖Engine Hood车身Car Body车门Door Panel车顶板Roof底盘及其另件Chassis and Related Parts底盘车架Frame门框Sash保险杆Bumper钣金件Stamping Parts叶子板Fender横梁Cross Member行李箱盖Trunk Lid车柱Pillar车身钣金件Body & Stamping Parts 支架< Bracket补强板Reinforcement Plate底盘系统Chassis System下臂Lower Arm上臂Upper Arm手剎车拉柄Parking Brake Lever支柱总成Strut Assembly方向盘Steering Wheel比例阀Proportional Valve主轴、副轴Mainshaft / Countershaft 平衡杆Stabilizer Bar扭力杆Torsion Bar剎车分泵Brake Cylinder剎车来令片Brake Lining Shoe剎车油管(软) Brake Hose剎车油管(硬) Brake Tube剎车真空倍力器Brake Vacuum Booster剎车总泵Brake Master Cylinder后轴总成Rear Axle Assembly动力方向系统Power Steering System 动力转向油管Power Steering Hose动力转向帮浦Power Steering Pump控制拉线Control Cable排档杆Shift Lever排档头Knob球形接头Ball Joint等速接头 C.V. Joint传动轴Propeller Shaft叶片弹簧Leaf Spring鼓、碟式剎车器.;.. Drum / Disc Brake Assembly鼓式剎车盘Brake Drum碟式剎车盘Brake Disc辅助气囊Air Bag踏板Pedal齿轮Gear横拉杆接头Tie-Rod End螺旋弹簧Coil Spring避震器Shock Absorber转向连杆Steering Linkage转向节臂Knuckle转向齿轮箱Steering Gear Box转向机柱Steering Column转向总成Steering Assembly离合器分泵Clutch Cylinder离合器片Clutch Disc离合器外壳Clutch Case离合器总成Clutch Assembly离合器总泵 Clutch Master Cylinder 离合器释放轴承Clutch Release Bearing变速箱Transmission Box变速箱外壳Transmission Case曳力杆Trailing Arm避震器前后活塞杆Piston Rod of Front and Rear Shock Absorber底盘系统Chassis System自排变速箱修理包Automatic Transmission Gasket Kits 齿条Gear Rack剎车真空管Brake Boost Vacuum Tube。

Differential and Rear AxlesThe differential is part of the rear-axle-housing assembly, which includes the differential, rear axles, wheels, and bearings. If the car were to be driven in a straight line without having to make turns, then no differential would be necessary. However, when the car rounds a turn, the outer wheel must travel farther than the inner wheel. The differential permits the two rear wheels to rotate different amounts when the car goes around a turn, while still delivering power to both rear wheels.The rear axles are attached to the wheels and have bevel side gears on their inner ends. The differential case is assembled on the left axle but can rotate on a bearing independently of the axle.The differential case supports the differential-pinion gear on a shaft, and this gear meshes with the two bevel gears. The ring gear is attached to the differential case so that the case rotates with the ring gear when the later is driven by the drive pinion.The driving power enters the differential through the drive pinion on the end of the propeller shaft. The drive pinion is meshed with a large ring gear so that the ring gear revolves with the pinion.Attached to the ring gear (through the differential case) is a differential-pinion shaft on which are assembled two differential-pinion gears. Each rear car wheel has a separate axle, and there are two side gears splined to the inner ends of the two wheel axles. The two differential-pinion gears mesh with these two side gears. When the car is on a straight road, the two differential-pinion gears do not rotate on the pinion shaft, but they do exert pressure on the two side gears so that the side gears turn at the same speed as the ring gear, causing both rear wheels to turn at the same speed, also.The differential case is supported in the carrier by two tapered-roller side bearings. This assembly can be adjusted from side to side to provide the proper backlash between the ring gear and pinion and the required side bearing preload. This adjustment is achieved by threaded bearing adjusters on some units and the placement of selective shims and spacers on others.The differential case is supported in the carrier by two tapered-roller side bearings. This assembly can be adjusted from side to side to provide the proper backlash between the ring gear and pinion and the required side bearing preload. This adjustment is achieved by threaded bearing adjusters on some units and the placement of selective shims and spacers on others.Transaxle final drive gears provide the means for transmitting transmission output torque to the differential section of the transaxle. The differential section of the transaxle has the same components as the differential gears in a RWD axle and basically operate in the same way. The power flow in transversely mounted power trains is in line with the wheels and therefore the differential unit does not need to turn the power 90 degrees.When the car rounds a curve, the outer wheel must turn faster than the inner wheel. To permit this, the two pinion gears rotate on their pinion shaft, transmitting more turning movement to the outer side gear than to the inner side gear. Thus, the side gear on the outer-wheel axle turns more rapidly than the side gear on the inner-wheel axle. This permits the outer wheel to turn more rapidly while the car is rounding the curve.There are two basic types of axle: dead axles and live axle. The dead axle does not rotate; the wheel rotates on it. A common example is the axle on a horse- drawn wagon. Live axles are attached to the wheel so that both the wheel and the axle rotate together. Live axles are classified according to the manner in which they are supported: semi-floating, three-quarter-floating, and full-floating.Propeller Shaft and Universal JointThe propeller shaft is a drive shaft to carry the power from the transmission to the rear-wheel axles. It connects the transmission main, shaft carries through the propeller shaft to the differential at the rear axles. Rotary motion of the transmission main shaft carries through the propeller shaft to the differential, causing the rear wheels to rotate.The propeller-shaft design must take two facts into consideration. First, the engine and transmission are more or less rigidly attached to the car frame. Second, the rear-axle housing (with wheels and differential) is attached to the frame by springs. As the rear wheels encounter irregularities in the road, the springs compress or expand. This changes the angle of drive and the distance between the transmission and the differential, and the propeller shaft may take care of these two changes. That is to say, as the rear axle housing, with differential and wheels, moves up and down, the angel between the transmission output shaft changes. The reason the propeller shaft shortens as the angel increases is that the rear axle and differential move in a shorter arc than the propeller shaft. The center point of the axle-housing arc is the rear-spring or control-arm attachment to the frame. In order that the propeller shaft may take care of these two changes, it must incorporate two separate types of device. There must be one or more universal joints to permit variations in the angel of drive. There must also be a slip joint that permits the effective length of the propeller shaft to change.The propeller shaft may be solid or hollow, protected by an outer tube or exposed. Some applications include bearings at or near the propeller shaft center to support the shaft. The two-section propeller is supported by a center bearing and coupled together by universal joints. A universal joint is essentially a double- hinged joint consisting of two Y-shaped yokes, one on the driving shaft and the other on the driven shaft, and across-shaped member called the spider. The four arms of the spider, known as trunnions, are assembled into bearings in the ends of the two shaft yokes. The driving shaft causes the spider to rotate, and the other two trunnions of thespider cause the driven shaft to rotate. When the two shafts are at an angel to each other, the bearings in the yokes permit the yokes to swing around on the trunnions with each revolution. A variety of universal joints have been used on auto mobiles, but the types now in most common use are the spider and two-yoke, the constant-velocity, and the ball-and-trunnion joints.A slip joint consists of outside splines on one shaft and matching internal splines in the mating hollow shaft, the splines cause the two shafts to rotate together but permit the two to move endwise with each other. This accommodates any effective change of length of the propeller shaft as the rear axles move toward or away from the car frame.差速器和后车轴差速器是后车轴体系的一部分，此体系包括差速器，后车轴，轮子和轴承。

汽车各个零部件中英文对照车轮系统< english> Wheeling System轮毂< english> Wheel Hub轮胎< english> Tire轮胎汽门嘴< english> Tire Valve轮圈< english> Wheel Disk轮圈盖< english> Wheel Cover内胎(含内衬) < english> Inner Tire (Flap)车轮系统< english> Wheeling System电装品< english> Electrical Parts电瓶< english> Battery中央门控< english> Central Door Lock分电盘< english> Distributor火星塞< english> Spark Plug汽车用电子钟< english> Digital Clock汽车音响< english> Car Audio防盗器< english> Car Burglar Alarm雨刷及雨刷连杆< english> Wiper / Linkage 保险丝座< english> Fuse Seat保险丝< english> Fuse洗涤壶< english> Windshield Washer配线< english> Wire Harness马达类< english> Motor高压线组< english> Ignition Cable喇叭< english> Horn发电机(零件) < english> Alternator (Components) 开关类< english> Switch蜂鸣器< english> Buzzer预热塞< english> Glow Plug仪表< english> Combination Meter灯泡< english> Bulb灯类< english> Lamp点火线圈< english> Ignition Coil继电器< english> Relay倒车雷达< english> Reverse Sensor电池充电器< english> Battery Charger闪光器< english> Flasher省电器< english> Energy Saving Unit端子< english> Terminal电动座椅装置< english> Power Seat Unit马达零件< english> Motor Components电装品< english> Electrical Parts汽车用光盘< english> Car CD汽车用液晶显示器< english> Car LCD调整器< english> Regulator整流器< english> Rectifier电子点火器< english> Ignition Module倒车显示器< english> Rear View Display定速器< english> Cruise ControllerHID车灯安定器组合< english> HID Ballast Complete Set for Headlights LED灯< english> LED Lamp车灯控制器< english> Lighting Controller点火线圈模块< english> Ignition Coil Module外装品< english> Exterior Parts水箱饰罩< english> Radiator Grille天线< english> Antenna车身护条< english> Side Protector防撞护垫< english> Bumper Pad后视镜< english> Door Mirror装饰贴纸、标志< english> Ornament Mark轮弧< english> Fender Trim挡泥板< english> Mud Guard扰流板< english> Spoiler前防撞杆< english> Guard Assy (Front)后防撞杆< english> Grard Assy (Rear)外装品< english> Exterior Parts内装品< english> Interior Parts仪表板< english> Instrument Panel中央置物箱< english> Console孔塞< english> Grommet Plug地毯< english> Floor Mat安全带< english> Seat Belt车门扶手< english> Door Armrest车门把手< english> Door Handle车门锁< english> Door Lock车顶内衬< english> Roof Lining车窗升降摇柄< english> Window Lifter Handle 车窗升降机< english> Window Lifter防水衬条< english> Weatherstrip油量表< english> Fuel Gauge门饰板< english> Door Trim室内镜< english> Room Mirror音响喇叭盖< english> Speaker Cover(电动)座椅< english> (Electric) Seat顶蓬< english> Headlining烟灰缸< english> Ashtray各类隔音垫< english> All Kinds of Silencer饰板/饰条< english> Garnish / Trim仪表饰板< english> Instrument Panel Garnish遮阳板< english> Sunvisor压条< english> Moulding点烟器< english> Cigar Lighter备胎板< english> Trim for Spare Tire天窗< english> Sun Roof后置物板< english> Rear Parcel Shelf后舱室饰板< english> Rear Trunk Trim内装品< english> Interior Parts仪表板支架< english> Instrumental Panel Mounting随车工具< english> Tools千斤顶< english> Jack尼龙绳、特多龙绳< english> Nylon Rope生产、检测及涂装设备< english> Production,Test & Painting Equipment 各类孔盖< english> Cap、Cover扣具< english> Cargo Lash夹片、管束< english> Clamp, Clip油土与基准模型< english> Clay Model and Master Model油封< english> Oil Seal门铰链< english> Door Hinge故障标志< english> Reflector玻璃类< english> Glass修理业< english> Repairing & Maintenance粉末冶金< english> Powder Metallurgy轴承< english> Bearing塑料件< english> Plastic Parts隔热材< english> Heat Insulator电子件< english> Electrical Parts垫片类< english> Seal、Gasket、Washer、Packing碳刷< english> Carbon Brush管类< english> Pipe, Hose, Tube铜套类< english> Bushing弹簧< english> Spring模、夹、治、检具< english> Die, Fixture, Jig, Checking Gauge 橡胶件< english> Rubber Parts帮浦类< english> Pump螺帽/螺栓/螺丝< english> Nut/Bolt/Screw锻造件(加工) < english> Forging Parts (Processing)滤清器类< english> Filter锁< english> Lock镜类< english> Mirror铸造件(加工) < english> Casting Parts (Processing)引擎盖铰链< english> Hinge of Engine Hood行李箱铰链< english> Hinge of Trunk Lid保险杆支撑< english> Mount of BumperCAD/CAM车身设计< english> CAD/CAM Car Body Design 汽车清洁保养用品< english> Cosmetics for Automobile涂料< english> Paints合成木材< english> Synthetic Wood电磁阀< english> Solenoid Valve热水阀< english> Heater Valve冷煤电磁阀< english> Refrigerate Solenoid valve玻璃滑槽< english> Glass Run双面胶带< english> Acrylic Foam T ape触媒转换器缓冲绵< english> Catalytic Converter Mate黑烟过滤器< english> Diesel Particle Filter车用灭火器< english> Extinguisher零组件用材料< english> Components Materials汽车用行动电话< english> Car Hand-free Mobile Phone汽车保全系统< english> Car Security System汽车导航系统< english> Car Navigation System人造革< english> Artificial Leather铭板< english> Nameplate汽车用计算机< english> Car Computer无线电胎压侦测仪< english> Wireless Tire Monitor汽车内装用牛皮< english> Leather for Car Interior打蜡机< english> Buffer (Car Polisher)金属表面处理(材料) < english> Metal Surface Treatment (Material) 插接件< english> Connector Clip胎压不足警示器< english> Tire Low Pressure Indicator温度感应器< english> Water Temperature Sensor油压感应器< english> Oil Pressure Sensor机油< english> Engine Oil自动变速箱油< english> Automatic Transmission Oil油品添加剂< english> Oil Additive热处理< english> Heat Treatment自行车类< english> Bicycle整车< english> Finished Bicycle一般自行车< english> Regular Bicycle三轮车< english> Tricycle协力车< english> Tandem Bicycle城市车< english> ATB孩童车< english> Junveniles Bicycle室内运动车(健身车) < english> Exerciser单轮车< english> Unicycle无链式自行车< english> Chainless Bicycle登山车< english> Mountain Bicycle越野车< english> Trekking Bicycle跑车（自由车）< english> Racing Bicycle电动自行车< english> Electrical Bicycle折叠式自行车< english> Folding Bicycle海滩车< english> Beach Bicycle(电动)滑板车< english> (Electric) Kick Board Scooter其它特种自行车< english> Other Special-purpose Bicycles 避震脚踏车< english> Suspension Bicycle传动件< english> Transmission曲柄组< english> Chainwheel & Crank飞轮< english> Flywheel链条< english> Chain变速杆< english> Shift Lever变速器< english> Derailleur电动自行车马达< english> Electric Bicycle Motor电动自行车控制器< english> Electric Bicycle Driver齿轮箱< english> Gear Box车轮及剎车< english> Wheel and Brake轮胎< english> Tire夹式剎车器< english> Caliper Brake快拆< english> Quick Release花鼓< english> Hub & Free Hub液压式剎车器< english> Hydraulic Brake脚剎车器< english> Coaster Brake碟式剎车器< english> Disk Brake轮圈< english> Rim辐条/辐帽< english> Spoke/Nipple悬臂式剎车器< english> Cantilever Brake控制拉线< english> Control Cable剎车来令片< english> Brake Lining Shoe配件< english> Accessories铃< english> Bell反光片< english> Reflector水壶架< english> Bottle Cage打气筒< english> Floor Pump商标贴纸< english> Sticker货架< english> Luggage Carrier速度表< english> Speed Meter整车< english> Finished Automobile轿车< english> Passenger Car休旅车< english> Recreational Vehicle (RV)柴油车黑烟净化器< english> Diesel Particulate Filter 时规炼条/皮带外盖< english> Timing Chain/Belt Cover 燃料系统< english> Fueling System废气回收管< english> EGR Tube冷却系统< english> Cooling System水箱< english> Radiator水管< english> Water Hose水箱水管< english> Radiator Hose水帮浦< english> Water Pump水箱风扇< english> Radiator Fan风扇< english> Fan副水箱< english> Auxiliary Radiator节温器< english> Thermostat调节器< english> Regulator水箱支架< english> Radiator Mounting冷却系统< english> Cooling SystemA/C风扇< english> A/C Fan润滑系统< english> Lubrication System油底壳< english> Oil Pan自排车用滤油器< english> Oil Filter for Automatic Transmission 机油尺< english> Oil Level Gauge机油帮浦< english> Oil Pump机油滤清器< english> Oil Filter机油滤网< english> Oil Strainer润滑系统< english> Lubrication System机油尺导管< english> Oil Level Gauge Tube空调系统< english> Air-conditioning System冷气总成< english> A/C Assembly冷气配管< english> A/C Hose冷气导风管< english> A/C Duct冷气压缩机< english> A/C Compressor冷凝器< english> A/C Condenser暖气总成< english> Heater Assembly鼓风机< english> Blower Assembly蒸发器< english> Evaporator冷媒管< english> A/C Pipe储液瓶< english> A/C Receiver空调相关零件< english> A/C Related Components 空气清净机< english> Air Purifier空调滤网< english> A/C Filter空调系统< english> Air-conditioning System提速器< english> Actuator车身钣金件< english> Body & Stamping Parts引擎支撑< english> Engine Mounting引擎盖< english> Engine Hood车身< english> Car Body车门< english> Door Panel车顶板< english> Roof底盘及其另件< english> Chassis and Related Parts 底盘车架< english> Frame门框< english> Sash保险杆< english> Bumper钣金件< english> Stamping Parts叶子板< english> Fender横梁< english> Cross Member行李箱盖< english> Trunk Lid车柱< english> Pillar车身钣金件< english> Body & Stamping Parts支架< english> Bracket补强板< english> Reinforcement Plate底盘系统< english> Chassis System下臂< english> Lower Arm上臂< english> Upper Arm手剎车拉柄< english> Parking Brake Lever支柱总成< english> Strut Assembly方向盘< english> Steering Wheel比例阀< english> Proportional Valve主轴、副轴< english> Mainshaft / Countershaft 平衡杆< english> Stabilizer Bar扭力杆< english> Torsion Bar剎车分泵< english> Brake Cylinder剎车来令片< english> Brake Lining Shoe剎车油管(软) < english> Brake Hose剎车油管(硬) < english> Brake Tube剎车真空倍力器< english> Brake Vacuum Booster剎车总泵< english> Brake Master Cylinder后轴总成< english> Rear Axle Assembly动力方向系统< english> Power Steering System动力转向油管< english> Power Steering Hose动力转向帮浦< english> Power Steering Pump控制拉线< english> Control Cable排档杆< english> Shift Lever排档头< english> Knob球形接头< english> Ball Joint等速接头< english> C.V. Joint传动轴< english> Propeller Shaft叶片弹簧< english> Leaf Spring鼓、碟式剎车器< english> Drum / Disc Brake Assembly 鼓式剎车盘< english> Brake Drum碟式剎车盘< english> Brake Disc辅助气囊< english> Air Bag踏板< english> Pedal齿轮< english> Gear横拉杆接头< english> Tie-Rod End螺旋弹簧< english> Coil Spring避震器< english> Shock Absorber转向连杆< english> Steering Linkage转向节臂< english> Knuckle转向齿轮箱< english> Steering Gear Box转向机柱< english> Steering Column转向总成< english> Steering Assembly离合器分泵< english> Clutch Cylinder离合器片< english> Clutch Disc离合器外壳< english> Clutch Case离合器总成< english> Clutch Assembly离合器总泵< english> Clutch Master Cylinder离合器释放轴承< english> Clutch Release Bearing变速箱< english> Transmission Box变速箱外壳< english> Transmission Case曳力杆< english> Trailing Arm避震器前后活塞杆< english> Piston Rod of Front and Rear Shock Absorber 底盘系统< english> Chassis System自排变速箱修理包< english> Automatic Transmission Gasket Kits齿条< english> Gear Rack剎车真空管< english> Brake Boost Vacuum Tube。

外文翻译汽车差速器Failure analysis of an automobile differential pinion shaftAbstractDifferential is used to decrease the speed 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 they 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 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 the fatigue and fracture conditions.Keywords: 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 together 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]:(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 movement 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, 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, mirror and pinion gear are made to get used to each other during 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 [2–4]. In this study, the pinion shaft of the differential of aminibus 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 caused by stopping and starting the minibus at atraffic 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;studies 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 differential.Fig. 2. Technical drawing of the analysed pinion shaftFig. 3. The picture of the undamaged differential pinion analysed in the studyFig. 4. Photographs of failed shaft2. Experimental procedureSpecimens extracted from the shaft were subjected to various tests including hardness 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 analysisChemical analysis of the fractured differential material was carried out using a spectrometer. 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 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 obtained with compressive residual stress by making the surface harder [5–7].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 carbides 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 tocarbon steels dissolves in the ferrite. Chromium, which has a somewhat stronger carbide-forming tendency than iron, partitions between the ferrite and carbide phases. The distribution of chromium 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 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 the 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]. If the microstructure cannot be inverted to martensite by quenching, a reduction of fatigue limit is observed.Table 1Chemical analysis of the pinion gear material (wt%)Fe C Si Mn P S Cr Mo Ni 96.92 0.235 0.252 0.786 0.044 0.016 0.481 0.151 0.517 and fracture surfaces.Fig. 5. Micro structure of the material (200·).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. This 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 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 the piece with fractured surfaces and SEM analyses are given in this chapter. The crack started because of a possible problem in the bottom of notch caused the shaft to be broken completely. The crack started on the outer part, after some time it continued beyond the centre and there 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 created 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 2Micro hardness values Distance from surface (lm) 50 100 200 400 CenterValues HV (4903N) 588 410 293 286 263Fig.Fig. 6. 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 fillet 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 loading.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 manner (Fig. 6). There are some shear 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 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 component. 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 material 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 recommendations during the study.H. Bayrakceken / Engineering Failure Analysis 13 (2006) 1422–1428References[1] 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;9:579–92.[3] Orhan S, Aktu¨rk N. Determination of physical faults in gearbox through vibration analysis. J Fac Eng Arch Gazi University2003;18(3):97–106.[4] Tas getiren S, Aslantas K, Ucun I. Effect of press-fitting pressure on the fatigue damages of root in spur gears. Technol Res: EJMT2004;2:21–9.[5] Nanawarea GK, Pableb MJ. Failures of rear axle shafts of 575 DI tractors. Eng Failure Anal 2003;10:719–24.[6] Aslantas K, Tas getiren S. A study of spur gear pitting formation and life prediction. Wear 2004;257:1167–75.[7] Savas V, O¨ zek C. Investigation of the distribution of temperature on a shaft with respect to the deflection. Technol Res: EJMT2005;1:33–8.[8] Smith FW. Principles of materials science and engineering. 3rd ed. USA: McGraw-Hill Series; 1996. p. 517–18.[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 microstructures. Materials Park(OH): ASM International; 1991. p. 100–65.汽车差速器小齿轮轴的失效分析摘要差速器的作用是根据车辆合适的角度, 通过将运动转向, 为运动传输减速或者提供瞬间加速, 这个运动来自引擎, 到车轮去, 使内外车轮转动不同。

中英文对照外文翻译(文档含英文原文和中文翻译)Failure analysis of an automobile differential pinion shaft AbstractDifferential is used to decrease the speed 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 they 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 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 2005 Elsevier Ltd. All rights reserved.Keywords: 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 together 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]:(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 movement 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, two axle gear and two pinion spider gears.A schematic illustration of a differential is given in Fig, 1. The technical drawing of pinion 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, mirror and pinion gear are made to get used to each other during 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 [2-4]. In this study, the pinion shaft of the differential 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 caused 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;•studies 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.2. Experimental procedureSpecimens extracted from the shaft were subjected to various tests including hardness 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 analysisChemical analysis of the fractured differential material was carried out using a spectrometer. The chemical composition of the material is given in Table 1. Chemical composition shows that the material is a lowalloy carburizing 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 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 obtained with compressive residual stressby making the surface harder [5-7].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 αferrite of the steel since it has less tendency to form carbides 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 depends on the iron, partitions between the ferrite and carbide phases. The distribution of chromium depends on the amount of carbon present and if other stronger carbide-forming elements such as titanium and columbium 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 is there is sufficient carbon present and if other stronger carbide-forming elements such da 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 the 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 asan improvement of yield strength and maximum stress without any reduction of ductility [9]. If the micro-structure cannot be inverted to martensite by quenching, a reduction of fatigue limit is observed.There are areas with carbon phase in Fig. 5(a). There is the transition boundary of carburization in Fig. 5(b) and (c) shows the matrix region without carburization. As far as it is seen in there photographs, the piece was first carburized, then the quenching operation was done than tempered. This 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 obtained as 43 HRC. Micro hard-ness measurements have been made to determine the chance of hardness values along cross-section be-cause of the hardening of surface area dueto carburization. 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 the piece with fractured surfaces and SEM analyses are given in this chapter. The crack started because of a possible problem in the bottom of notch caused the shaft to be broken completely. The crack started on the outer part, after some time it continued beyond the centre and there 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 , there are two regions in the fractured surface. These are a smooth surface created by crack propagation and a rough surface created 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.Shaft works under the effect of bending, torsion and axial forces which affect repeatedlydepending on the usage place. There is a sharp fillet at level on the fractured section. For this reason, stress concentration factors of the area have been determined. K t = 2.4 value (for bending and tension), and K t = 1.9 value (for torsion) have been acquired according to calculations. These are quite high values for areas exposed to combined loading.These observations and analysis show that the piece was broken under the influence of torsion with low nominal stresses electron microscopy shows that the fracture has taken place in a ductile manner (Fig.6). There are some shear 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 lines is nearly 133 nm.3. ConclusionsA failed differential pinion shaft is analysed in this study. The pinion shaft is produced from AISI 8620 low carbon carburising steel which had a carbursing, 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 component. 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 material 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 locationAcknowledgementThe author is very indebted to Prof. S. Tasgetiren for his advice and recommendations during the srudy.References[1]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. EngFailure Anal 2002;9:579-92.[3]Orhan S, Aktu ¨rk N. Determination of physical faults in gearbox through vibrationanalysis. J Fac Eng Arch Gazi University 2003;18(3):97–106..[4]Tasgetiren S, Aslantas ? K, Ucun I. Effect of press-fitting pressure on the fatiguedamages of root in spur gears. Technol Res: EJMT 2004;2:21–9.[5]Nanawarea GK, Pableb MJ. Failures of rear axle shafts of 575 DI tractors. EngFailure Anal 2003;10:719–24.[6]Aslantas K, Tasgetiren S. A study of spur gear pitting formation and life prediction.Wear 2004;257:1167–75.[7]Savas V, O ¨ zek C. Investigation of the distribution of temperature on a shaft withrespect to the deflection. Technol Res: EJMT 2005;1:33–8.[8]Smith FW. Principles of materials science and engineering. 3rd ed. USA: McGraw-HillSeries; 1996. p. 517–18.[9]ASM metal handbook, vol. 1. Properties and selection, irons, steels, and highperformance alloys; 1991.[10]Voort GFV. Visual examination and light microscopy. ASM handbook metallographyand microstructures. Materials Park (OH): ASM International; 1991. p. 100–65.汽车差速器小齿轮轴的失效分析摘要差速器是用来降低速度增加扭矩并根据合适的角度向两轮传递动力。