汽车专业英语翻译综合

汽车工程专业英语全文翻译一当今的汽车一般都由15000多个分散、独立且相互配合的零部件组成..这些零部件主要分为四类：车身、发动机、底盘和电气设备..Body：车身Engine：发动机Brakes：制动器Power train：传动系Steering：转向系Electrical：电器及电子设备Suspension：悬架Layout of a passenger car：乘用车总布置Layout of a commercial vehicle：商用车总布置1.1 车身汽车车身是由车窗、车门、发动机罩和行李箱盖焊接在金属板外壳发动机发动机作为动力装置..最常见的发动机气缸的排列方式称为发动机配置..直列式发动机的汽缸呈一列布置..这个设计创造了一个简单的发动机缸体铸造..在车辆应用中;汽缸数一般是2-6缸;汽缸中心线与水平面垂直..当汽缸数增多时;发动机尺寸和曲轴就成为一个问题..解决这个问题的办法就是采用V形汽缸呈两列布置;且两列气缸之间夹角为V形发动机..这个设计使发动机尺寸和曲轴都变得更短且更坚硬.. 前置发动机纵向安装;既可前轮驱动也可后轮驱动..后置发动机是将发动机安装在后轮后面..发动机可横置或纵置;一般情况下为后轮驱动..1.4 电气系统电气系统为起动机、点火系统、照明灯具、取暖器提供电能..该电平由一个充电电路维护..1.4.1 充电充电系统为所有汽车电子元件提供电能..充电系统主要包括：蓄电池;交流发电机;电压调节器;即通常是交流发电机上不可或缺的;充电警告或指示灯和金属丝连成一个完整电路..蓄电池为起动提供电能;然后发动机工作;交流发电机就为所有的电子元件提供电能..同时也给蓄电池充电即用来使发动机起动..电压调节器有过充保护作用..1.4.2 起动起动系统包括：蓄电池、电缆、起动机、飞轮和换向器..起动时;有两个动作同时运行;该起动机齿轮与飞轮齿圈啮合;并起动电机;然后运行传输到发动机曲轴..起动机电机将起动机安装在发动机缸体上并由电池供电..1.4.3 点火一个基本的点火系统包括：蓄电池、低压电缆、点火线圈、线圈高压电缆、火花塞电缆和火花塞..点火系统提供高强度火花使火花塞点燃燃料室里的液体燃料..火花必须在适当的时候提供;并达到能够使燃料点燃的能量要求..这些能量从蓄电池和交流发电机获得;点火线圈使电压增高..该系统有两个电路;主电路或低压电路点燃火花;次电路或高压电路产生高压并将其分配到火花塞上.. 复习题1. 列出汽车有那几部分组成..2. 根据车身外形车辆常见类型是什么3. 向下移动的冰锥增加汽缸容积和新鲜的通过进气阀开启的空气燃料混合..2．压缩行程向上移动的活塞减少了汽缸内体积和压缩的空气燃料混合物..不久之前;香港贸易发展局是达成共识;火花塞点燃压缩空气燃料的混合物;从而启动了燃烧过程..更高的压缩比意味着更好的燃油利用率..压缩的程度受制于敲限制..3.做功行程火花点火后在火花塞点燃了压缩空气燃料的混合物;作为混合的结果温度升高..在汽缸增加;迫使活塞向下的压力..活塞转让的权力;通过连杆曲轴..4.排气行程向上移动的活塞燃烧排出的气体废气通过公开排气阀..在四冲程过完成后又周期重复..这台发动机有数以百计的其它部分..发动机的主要部件是发动机缸体;发动机头;活塞;连杆;曲轴和阀门..其他部分一起营造系统..这些系统是燃油系统;进气系统;点火系统;冷却系统;润滑系统和排气图2 - 2..这些系统都有一定的作用..这些系统将在后面详细讨论..发动机缸体是发动机的基本框架..所有其他发动机零件要么在其中的位置或固定它..其所持有的气瓶;水套和油画廊图2 - 4..发动机缸体还持有曲轴;那拴到块的底部..还装在凸轮轴块;除却架空凸轮OHC发动机..在大多数汽车;这个部件是由灰铸铁或者一种合金混合物灰铁和其它金属如镍或铬..发动机缸体是铸件..有些气缸体;特别是在小汽车里的那些;都是由铝做成的..这种金属比铁轻得多;然而;铁的耐磨性比铝好..因此;在大多数铝制发动机的气缸活塞;连杆和曲轴2.3.1 曲柄机构和能量活塞由曲柄机构和气缸;连杆组成..这些部件通过气体能量推动;从而引起这些部件产生惯性力..气能产生的力可以再细分为垂直于竖直平面的力Fn;且作用于汽缸壁;和一个推动连杆的力Fs;这个连杆的力;从而引起切向力Ft并作用于曲柄机构;这些能量要求在一起产生扭转和法向力Fr..这气体作用力分为作用角α;支点于连杆的作用角β;和压缩比入:连杆作用力: Fs=Fg/cosβ侧向力 : Fn=Fgtanβ法向力 : Fr=Fgcosα+β/ cosβ切向力 : Ft=Fg sinα+β/ cosβ所以的这些关系代表了一种方法计算各部件的振动.活塞是四个运动周期中一个重要部分;很多活塞都是从铝中提炼出来研制而成的.活塞;通过连杆传递能量来压缩点燃混合气体.这些能力转化为曲柄的动能.这样;圆形的钢圈装入汽缸;用活塞环来密封整个燃烧室.这个称为活塞环..这些用来放活塞环的称为凹槽..一个活塞销放在中间通过一个小孔固定..活塞销的作用是固定活塞于连杆之间的连接;对活塞销起作用的是活塞销凸台..活塞本身;它的环和活塞销一起称为活塞总成..1活塞为了抵抗高温的燃烧室;活塞必须非常坚固;但是也必须轻便;因为它是在气缸内高速运转而上下运动的;活塞内是空的;在顶部是厚的用来传递高温高压的气体动力;底部温度较低所以做成薄的..顶部是活塞头或活塞顶;薄部分是裙部;两节之间的凹槽称为环带..活塞顶可以是平的;凹的;圆顶的或是隐蔽的;在柴油机的燃烧可能形成完全或部分活塞冠;依靠这种方法喷射..所以活塞采用不同的形状..2..活塞环如图2-9所示;活塞环装进接近活塞顶部的环槽..简单来说;活塞环是薄的;是圆形的金属片;适合槽活塞顶部的..现在的发动机;每个活塞有三个活塞环;老式的发动机有四个甚至五个..活塞环装在活塞内表面的凹槽内..活塞环的外表面紧靠着汽缸壁活塞环提供了活塞环于汽缸壁之间的密封;也就是说;只有活塞环接触汽缸壁..顶头两个活塞环是防止气体从汽缸壁漏出的;称为压缩环..最底下的一个是防止汽油飞溅到缸桶而从间隙进入到燃烧室;所以称为油环..表面镀铬的铸铁压缩环一般用于汽车的发动机..镀铬的活塞环提供了光滑;耐磨的表面..在做功行程;燃烧室对压缩环的压力是非常大的..原因是他们朝汽缸壁方向挤开;一些高压的气体进入到活塞环;这样使得活塞环表面充分接触到汽缸壁;燃烧的气体压力使得活塞环底部紧紧地压住活塞凹槽;然而;越高的燃烧的气体压力更加紧紧地把活塞环表面和汽缸壁密封住.. 3..活塞销活塞销是用来连接活塞于连杆的..活塞销装入销孔;装入连杆最顶头的小孔..连杆的顶部应远小于连杆的尾部才能装进曲柄轴颈..小的底部装进活塞的内底部..活塞销通过一边装入活塞销;通过小的连杆一端;然后通过活塞的另一边..这使得连杆稳固地在活塞中间适当的位置..活塞销是是空心的且是高强度的钢制成的..很多销的镀铬的使得更加耐磨..连杆是高强度的钢铸造的;它通过曲柄轴颈传递力和运动从活塞到曲柄销..连杆小的一头是连接活塞销的..轴瓦是用软金属制成的;比如青铜;用来这样合成的..下级的连杆装进曲柄轴颈..这称为大头..这个轴承;是钢背的铅或者是锡壳制成的..这些是一样被用作主要轴承..大端的分离切口往往是单个的;所以它足够小可以从燃烧室中取出.. 连杆由合金钢铸成..曲轴如图2-10所示;连同连杆通过旋转而带动活塞往复运动从而带动汽车行驶..它是由碳钢和低比例的镍合成的主要的曲轴轴颈装进汽缸;大端匹配连杆..在曲轴的后端附加有飞轮;在曲轴的前端有驱动轮对应的正时齿轮;风扇;冷却水和发电机..曲轴的摆幅;i;e;是主要的轴颈和大端中心之间的距离..控制冲程的幅度;冲程是双次进行的;摆动的幅度是活塞从TDC到BDC的距离;反之亦然..单缸的发动机每两次曲轴循环只能提供单一的能量脉冲..能量只能提供四分之一的时间..当超过一个汽缸时它能从曲轴获得流动性的能量..额外的能量被均匀地隔开遍及两个转数或四冲程的一个周期..四缸的一般用于汽车..为了保持曲轴的平衡设置第一和第四的活塞是在TDC..第二和第三的活塞是在BDC每个冲程的间隔是180°;图标的序列显示了各个缸的点火顺序;点火顺序是1-3-4-2;但是这个顺序可以改变为1-2-4-3;如果安装了另外的凸轮轴.. 注意到第四个活塞总是伴随着第一活塞进行的..当第四活塞进气阀完全打开时;第一缸的活塞完全关闭;这是用来调节气门间隙的..表格飞轮有碳钢制成;装在曲轴的后端..同时带动曲轴旋转和离合器..同时传送给变速器;和启动齿圈包围着在四个冲程当中只有一个冲程是做功的所以飞轮只有在这个时间带动曲轴;发动机在这几个不做功的冲程转动..平衡器和减震器是用来保持发动机曲轴正常缓冲的..比如每个燃烧室燃烧;它能加快曲轴旋转..轴的惯性它稍稍随后;这样在曲轴上起扭转作用..连续扭转震动引起的频率不同于发动机的转速和发动机缸数..减震器减少他们的振动..减震器主要由轮毂和惯性环组成..惯性环是结合轮毂通过弹性插入的..惯性环转动是和曲轴密切相关的在燃烧室内;然而抑制其扭转;并通过曲轴控制犯低级转速..一些减震器是由两个惯性环和而且是不同的尺寸从而更好地控制其振动..使用了一段时间后;弹性体会恶化或连接件可以不要..致使减震器失效或是引起自身振动.. 损坏的必须得替换下来..减震器的设计要结合轮毂的密封轴颈..在轮毂里密封凹槽;造成石油泄漏..袖套修理可以恢复减震器如果是在良好的条件下..轮毂在一定条件下可以维修来调节衬套..2.6.1 汽油汽油是从原油中提炼石油..汽油是高度易燃的;这意味着它容易在空气容易燃烧..汽油容易蒸发..这种特性被称为波动;是重要的..但是;它不能太容易挥发;否则将转向油箱内的蒸汽..管内的燃料;燃料蒸气可能阻止液体汽油流..这就是所谓的蒸气锁..在燃料蒸气锁普遍在暴露于高温线泵的进口侧..汽油的燃烧;随其质量和添加剂比例混合的..汽油的燃烧方式在室燃烧是很重要的.增加燃烧室中的燃料混合物点火前的压力;有助于提高发动机功率..这是通过压缩到一个较小的燃料混合物体积..高压缩比;不仅有利于推力;而且也给更多的有效的动力..但更进一步的压缩比起来;敲倾向增加..辛烷值是对汽油的抗爆性的质量或在燃烧过程中能够抵抗爆炸的认定..有时被称为爆震敲质量或能力抵御爆炸..爆轰;有时也被称为敲门;作为燃料的燃烧空气的混合物;由于温度过高;在燃烧室内的压力条件的最后一个部分失控爆炸的定义..由于爆炸产生的压力波冲击;因此产生敲缸声;燃料燃烧和空气的混合物的扩张;导致丧失权力;局部温度过高;如果足够严重;引擎损害..有两种常用的汽油辛烷值测定的的方法马达法和研究方法..两者都使用的实验室相同的类型单缸发动机来做实验;这是一个头部和一个变量来表示敲缸爆震强度装置..作为燃料使用;发动机压缩比和空气燃料混合料试验样品进行了调整;试验出爆震强度..两个主要标准参考燃料;正庚烷和异辛烷;任意分配0和10辛烷值;然后分别是混合产生测试样品相同的爆震强度..因此百分比异辛烷的混合被认为是测试样品辛烷值;因此;如果相应的参考配方是由15％正庚烷和85％异辛烷;测试样品的额定电机向上或85研究法辛烷值;依据测试的一种方法..2.6.2完全燃烧汽油;是在理想条件下汽油在混合气中完全燃烧汽油所需要空气和汽油是15比1..这意味着1公斤汽油混合15公斤空气..汽油完全燃烧所需的空气被称为化学正确的混合物.. 15:1的比例适用于汽油;其他燃料有不同的比率.为了表示更实际;空气燃料混合物提供给空气燃料比14.7:1气缸偏离理论上完全燃烧所需;多余的空气因子R已被选定引擎：=空气质量提供/理论要求R为1 空气质量提供相应数额的理论的必要..<“1 空气或缺乏丰富的混合物..增加电力的射程R = 0.85 0.95输出结果..> 1.3 该混合物是如此精简的点火更长发生..精益失火超限.. = 0.95 0.85 火花点火发动机开发在5％ 15％空气不足的最大功率.. = 1.1 1.2 发生在最大的燃油经济性高达20％左右的过剩空气..为R≈1.0 这种过剩空气系数允许与化学计量比空转..= 0.85 0.75 良好的转换发生15％ 25％的空气不足..转型是指从一个给定的负载范围在实践中;过剩空气因素的R = 0.9 1.1已被证明是最实用的..在一定的操作条件下;燃料需求不同的混合模式于基本注入燃料的数量大于干预必需的. 冷启动在冷启动时;空气燃料混合物的发动机制定的加浓了..这是由于在起动速度低如果混合物燃油与空气粒子流动速度;并以最小的燃油蒸发和汽缸壁和进气口;在低温下润湿燃料..为了弥补这些现象;从而促进ID的冷发动机;注入更多的燃料才更容易起动..1．后启动阶段在低温起动后;必须加浓的一段短时期的混合物;以补偿较浠混合气的形成和摄入量与燃料缸..此外;在高扭矩;为更好的油门响应更加丰富的混合物时;加速从闲置的结果..2．热机预热阶段遵循冷启动阶段..该发动机的燃料需要;因为凝结一些仍然在寒冷的汽缸壁的热身阶段额外的燃料..在低温时;混合物的形成是由于较浓的大型燃料液滴的加入;由于与拟定的发动机在空气中混合燃料效率下降..其结果是;在进气阀门和进气歧管;只有在较高温度下燃油蒸发浓缩.. 上述因素均随温度降低必要的加浓的混合物.3．加速度如果油门突然被打开;空气燃料混合物瞬间倾斜过;以及混合浓缩短期在部分负荷运行;实现最大的燃油经济性和排放值是观察的关键因素.. 5．全负荷该引擎提供了在满负荷最大功率;当空气燃料混合比;必须加以丰富;在部分负荷..这种丰富依赖于发动机转速和提供最大的在整个发动机转速范围内尽可能的扭矩..这也确保在满负荷运行最佳燃油经济性的数字..6．怠速除了发动机的效率;发动机怠速主要决定于闲置的燃料消耗;在发动机冷高摩阻力;必须通过提高空气燃油混合输入克服..为了实现平稳运行在空闲;空闲速度控制怠速提高..这也导致了更快速热身的发动机..闭环闲置速度控制功能可以防止怠速过高..该混合物的数量相对应维持在有关的负载如冷发动机;并增加摩擦怠速所需要的数量..它还允许一个没有长期闲置的调整不断废气排放值..闭环闲置速度控制还部分地弥补在发动机老化带来的变化;并确保稳定的发动机整个使用寿命空转..7．空载减速时切断燃油降低燃油消耗不仅是长下坡运行和制动过程中;而且在城市交通..由于没有燃料完全燃烧;减少废气排放..8．发动机限速当发动机转速达到预设;教统会抑制燃油喷射脉冲..9..的空气燃料混合物在高海拔适应在高海拔地区的空气密度低就必须更精简的空气燃料混合物..在高海拔地区;由于较低的空气密度;容积流量的空气流量传感器对应一个较低的空气质量流量测量..这个错误可以弥补纠正的燃料数量..过度富集是可以避免的;因此;过多的燃料消耗..正如图2 - 20所示;燃料系统有一个油箱;油管;燃油泵;燃油滤清器和化油器..这零部件商店汽油;并提供给需要的化油器..简而言之;油箱储存汽油..行携带的燃料从油箱的燃料化油器..移动汽油燃油泵从油箱的燃料;并通过线化油器..燃料过滤器除去杂质的汽油..然后;化油器发送燃料的空气和汽油的混合物 - 进入燃烧室..1..燃油泵大多数车今天使用一个机械式燃油泵..这种燃料泵出了汽油;并通过油管向化油器或喷射系统..在大多数汽车;泵安装在发动机缸体..有些汽车电动燃油泵有一个..该泵安装在皮卡与燃料和燃料轨;发送单元油箱..对机械燃油泵操作取决于对凸轮轴叶..作者：爱在旋转移动泵摇臂..泵内;可以灵活的隔膜通过膜片弹簧摇臂;拉杆和链接..如图所示;燃油泵也有一个入口和燃料出口..由于凸轮轴上的旋转叶;横膈膜上下移动内部的引擎..隔膜的吸向下运动从进入泵油箱..隔膜向上运动推到了化油器;从泵的燃料..2..化油器化油器提供燃料比例的空气量流经喉管..当你在加速器踏板时;扩大开放节流阀吸引更多的空气通过化油器..化油器提供这取决于许多因素更丰富或更精简的混合物：发动机转速;负荷;温度;节气门位置..为了满足复杂的要求;一化油器是一个非常复杂的设备与许多内部通道及零部件.1喉管汽车化油器的设计是由喉管..喉管简直是气道狭窄的部分..空气通过化油器的喉咙;因为它移动的速度通过这个狭窄通道的旅行..通过建立合资企业增加的空气速度在喷嘴打开一个低压区..推动在一个大气压下水库内燃料的化油器浮子室称为..燃料是强行通过一根管子到空气流..2浮子室浮子室是一个储存和供应燃料的化油器水库..由于发动机使用的燃料;它会自动浮子室补充..浮动室内乐作品在同一作为一个抽水马桶水箱控股的基本原则..阿浮有赖于在水库燃料的顶部..作为燃料使用时;浮球液位下降..当浮动滴;一针阀打开..开放式针形阀允许从燃料的燃料泵入化油器的浮子室流..当商会是满了;针形阀是向上推;并关闭燃油进口..3测量燃油浮子室之间的压差和造成的燃料流..然而;为了维持适当的空气燃料比;化油器必须仅提供适量的燃料..为此;主放电管有一个小孔称为喷射或主射流..这允许燃料进入气流..在大多数情况下;这个小口子浮子室是在主放油管的末端..在那里;它的体积小燃油流量限制..4需要冷启动安排切断阀通过一个手段扼杀供气提供了丰富的混合物约8:1;并提供了一个轻松的粒子蒸发足够的引擎..5慢速贯穿化油器的空气量过小的时候;发动机只运行缓慢产生非常小的扼流圈抑郁症..这意味着太少将提供燃料和发动机将停止..缓慢运行的系统已经在这个区域里存在着抑郁症的高当发动机空转的电源插座..调节螺钉控制系统运行缓慢;一个螺丝设置空转速度运行缓慢等使混合物是让发动机转速平稳.. 6油门机制机制的油门控制空气燃料混合物流动..油门有几个;包括油门轴和节流板的一部分..通过打开和关闭;节气门控制的空气进入发动机燃料混合物流动..在诸如开放更多的空气流动;少的板关闭的气流..这些变化也气流控制汽油流..增加气流意味着更大的压力下降;从而更多的燃料流..气流减少意味着减少压降和流量较少的燃料..该议案的节流轴转动油门板..油门轴电缆连接到油门;反过来;连接到车内的油门踏板..司机控制空气燃料混合物踏板流动..2.6.5 莫特郎尼克点火和燃油喷射系统化油器将准确的空气燃料混合气发送到发动机..然而;并非所有的汽车都有化油器..许多现代汽车是用燃油喷射系统图2 - 22..燃油喷射系统与化油器式有许多优势..例如;它们能提供更多的精确控制..它们能够更好地匹配空燃比在不断变化的发动机状态..它们还提供更好的经济性和排放控制..此外;燃油喷射系统不需要化油器多余的那部分..该系统是一个莫特郎尼克发动机管理系统;包括控制单元ECU;它执行至少两个基本功能点火和喷油;但可能包含其他子系统需要改进的发动机控制1..测量值的检测气缸内的燃烧过程不仅受混合气和空气燃料比的影响;而且还受点火提前点火和点火火花的能源影响..一个优化的引擎控制;因此必须控制在整个喷射时刻的空气燃料比R A即喷入的燃油量;以及点火提前角α和持续角B..影响燃烧过程中的主要参数检测为测量值和一起处理瞬间发动机运行工况点火和喷射的最佳时机的计算..2..工作变量/传感器发动机转速和负荷是主要的工作变量..由于特定的点火提前角和精确的喷射时间对应于每个发动机的转速/负载地图点;重要的是所有的变量;其中涉及到同一个点都在相同的速度/负载面积计算..这不仅是可能的;如果点火提前和喷射时间以同样的速度和负载值发动机转速检测只有一次使用相同的传感器计算..这就避免了统计误差;可导致不同的负载传感器设备公差;例如;..而一个略有杆负荷范围不同的分配限制敲到发动机爆震的易感性增加..清除点火时间角和注射时间分配是由莫特郎尼克系统提供动力;即使在发动机运行条件下;3..莫特郎尼克系统该莫特郎尼克系统包括一系列子系统;两个基本子系统点火和喷油..综合后的系统更加灵活;可实现比相应的各个系统的功能更多..莫特郎尼克系统的重要特点是其作为一个最子功能所需的大量可自由编程实现地图..废气再循环EGR的功能至今尚未在欧洲使用;因此提供一种替代系统的唯一..控制系统的lambda只能算是今天;如果配合使用为减少尾统开环控制功能以及一个扩展的系统与闭环功能结合敲和lambda控制在管理系统气。

1.These parts can be grouped into four major categories; body, engine, chassis and electrical system.2.The internal combustion engine is most common; this obtains its power by burning a liquid fuel inside the engine cylinder.3.The chassis includes the power train, steering, suspension, and braking systems.4. A power train can include a clutch for manual transmission or a torque converter for automatic transmission, a transmission, a drive shaft, final driveand differential gears and driving axles.5.Basic types are: leaf springs, coil springs and torsion bars.6. A basic ignition system consists of the battery, low-lension cables, the ignition coil, distributor, coil high-tension cable, spark plug cables and sparkplugs.7.The operating strokes are: induction stroke, compression stroke, power stroke, exhaust stroke.8.The major parts of engine are engine block, engine heads, pistons, connecting rods, crankshaft and valves.9.These systems are the fuel system, intake system, ignition system, cooling system, lubrication system and exhaust system.10.The dry clutch mechanism includes three basic parts: driving member, driven member and operating members.11.The spur gears are mounted on four shafts: primary shaft (input shaft), layshaft (countershaft), mainshaft, and reverse idler shaft.12.The three types of braking systems are in use today: service braking system, parking braking system and additional retarding-braking system.13.It has five basic parts: the receiver, expansion valve, evaporator, compressor, and condenser.14.The three normally adjustable angles are caster, camber, and toe.段落一．Elements of the Power TrainThe elements of the power train must meet the following requirements;1)enable driving away,2)convert torque and speed,3)enable different directions of rotation for driving forward and backward,4)transmit tractive and pushing forces,5)permit different rotational speeds of the drive wheels when cornering,6)guarantee optimum operation of the engine (or electric motor ) in terms of fuel consumption and exhaust emissions.Standstill, driving-away and power interruption are made possible by operation the clutch .During driving away, the clutch slips and bridges the difference in rotational speed between engine and power train. When different operating conditions call for a shift of gear, the clutch separates the power train during shifting.Engine torque and engine speed are converted in the transmission in accordance with the tractive-power demand of the vehicle. The transmission design is influenced by the position of the engine and driven axle. Overall conversion takes place usually in a manually shifted transmission with variable transmission ratios and in a final drive with a constant transmission ratio. Nowadays, positive-locking transmissions with toothed gears as the most important elements are of even greater significance than non-positive friction-type transmissions.Two types of toothed-gear transmission are predominant: spur-gear transmissions of the countershaft type as manually shifted transmissions, and planetary-gear transmissions as power-shift transmissions. In addition, transmissions permit the different directions of rotation required for driving forward and backward.Final drive turns the drive through 90°and reduces the speed of the drive by a set amount to the vehicle.The differential provides for the equalization of the different axle and wheel speeds when cornering and for uniform distribution of the drive torque.二.The Hydrodynamic Coupling1. Hydrodynamic CouplingConventionally, the hydrodynamic coupling, also known as the Fötttinger coupling, has an impeller and a turbine wheel with vanes that usually extend in the radial direction. The impeller is often expanded to form a housing which surrounds the turbine. Since, due to the absence of an inner ring, there is no possibility of diverting the oil flow, the turbine torque is equal to the pump torque;公式Therefore 公式The index number depends on the design, the vane angle and the degree of filling of the coupling. The main working area of an hydrodynamic coupling is at v=0.9.2. Hydrodynamic ConverterThe hydrodynamic converter, also known as the Trilok or Fötttinger converter, is capable of operating in two phases: with torque increase in the first phase, and as a hydrodynamic coupling in the second phase. The usual design has three impellers:1) The pump, which is connected to the engine, acts like a centrifugal pump to produce the flow energy of a fluid.2) The turbine, which is connected to the transmission input, converts the flow energy back into mechanical energy.3) The reactor between turbine and pump diverts the flow of the fluid.Thus, the torque output is higher than the pump torque input from the engine. The torque increaseμμ=Mt/Mp is all the higher, the greater the speed difference (slip）between the pump and turbine. Withυ=0, i.e. with the turbine braked to a standstill (stall point, drive-away point), torque conversion reaches its maximum value and falls virtually linearly with rising turbine speed to a torque ratio of 1:1 at the coupling point. Above the coupling point, the reactor, which is supported on the housing by a one-way clutch, runs, torque-free, in the flow. Thus, the converter is now a clutch without torque conversion.For automobiles, the vane geometries are such that, at the drive-away point, the maximum torque increase μA is between 2 and 2.5. The hydraulic efficiencyηhydr=υμis similar in the conversion range to the speed ratioμand reaches values around 97% at high speed.Fluid couplings form the input element of automatic transmissions (in conjunction with planetary-gear trains, clutches, brakes and one-way clutches) and also of manually shifted transmissions in the form converter and clutch unit.三．Constant-mesh TransmissionFig.3-6 illustrates the flow of torque through a typical constant-mesh transmission. This type uses helical or double helical gears which are always in mesh. The mainshaft gear wheels are mounted on bearings and when a gear is required the mainshaft gear is locked to the shaft by a dog clutch.Although the mechanical efficiency is lower the helical gears are quieter and any damage resulting from a bad gear change occurs to the dog teeth instead of the actual gear teeth.元素的力量训练动力传动的要素必须符合下列要求;1)使开车逃走,2)把转矩和速度,3)使不同方向的旋转带动向前和向后,四)推进传送叶轮力量,5)允许不同转速时的驱动轮转弯时,六)保证了优化运行的引擎(或电机)从油耗和尾气排放。

1.These parts can be grouped into four major categories; body, engine, chassis and electrical system.2.The internal combustion engine is most common; this obtains its power by burning a liquid fuel inside the engine cylinder.3.The chassis includes the power train, steering, suspension, and braking systems.4. A power train can include a clutch for manual transmission or a torque converter for automatic transmission, a transmission, a drive shaft, final driveand differential gears and driving axles.5.Basic types are: leaf springs, coil springs and torsion bars.6. A basic ignition system consists of the battery, low-lension cables, the ignition coil, distributor, coil high-tension cable, spark plug cables and sparkplugs.7.The operating strokes are: induction stroke, compression stroke, power stroke, exhaust stroke.8.The major parts of engine are engine block, engine heads, pistons, connecting rods, crankshaft and valves.9.These systems are the fuel system, intake system, ignition system, cooling system, lubrication system and exhaust system.10.The dry clutch mechanism includes three basic parts: driving member, driven member and operating members.11.The spur gears are mounted on four shafts: primary shaft (input shaft), layshaft (countershaft), mainshaft, and reverse idler shaft.12.The three types of braking systems are in use today: service braking system, parking braking system and additional retarding-braking system.13.It has five basic parts: the receiver, expansion valve, evaporator, compressor, and condenser.14.The three normally adjustable angles are caster, camber, and toe.段落一．Elements of the Power TrainThe elements of the power train must meet the following requirements;1)enable driving away,2)convert torque and speed,3)enable different directions of rotation for driving forward and backward,4)transmit tractive and pushing forces,5)permit different rotational speeds of the drive wheels when cornering,6)guarantee optimum operation of the engine (or electric motor ) in terms of fuel consumption and exhaust emissions.Standstill, driving-away and power interruption are made possible by operation the clutch .During driving away, the clutch slips and bridges the difference in rotational speed between engine and power train. When different operating conditions call for a shift of gear, the clutch separates the power train during shifting.Engine torque and engine speed are converted in the transmission in accordance with the tractive-power demand of the vehicle. The transmission design is influenced by the position of the engine and driven axle. Overall conversion takes place usually in a manually shifted transmission with variable transmission ratios and in a final drive with a constant transmission ratio. Nowadays, positive-locking transmissions with toothed gears as the most important elements are of even greater significance than non-positive friction-type transmissions.Two types of toothed-gear transmission are predominant: spur-gear transmissions of the countershaft type as manually shifted transmissions, and planetary-gear transmissions as power-shift transmissions. In addition, transmissions permit the different directions of rotation required for driving forward and backward.Final drive turns the drive through 90°and reduces the speed of the drive by a set amount to the vehicle.The differential provides for the equalization of the different axle and wheel speeds when cornering and for uniform distribution of the drive torque.二.The Hydrodynamic Coupling1. Hydrodynamic CouplingConventionally, the hydrodynamic coupling, also known as the Fötttinger coupling, has an impeller and a turbine wheel with vanes that usually extend in the radial direction. The impeller is often expanded to form a housing which surrounds the turbine. Since, due to the absence of an inner ring, there is no possibility of diverting the oil flow, the turbine torque is equal to the pump torque;公式Therefore 公式The index number depends on the design, the vane angle and the degree of filling of the coupling. The main working area of an hydrodynamic coupling is at v=0.9.2. Hydrodynamic ConverterThe hydrodynamic converter, also known as the Trilok or Fötttinger converter, is capable of operating in two phases: with torque increase in the first phase, and as a hydrodynamic coupling in the second phase. The usual design has three impellers:1) The pump, which is connected to the engine, acts like a centrifugal pump to produce the flow energy of a fluid.2) The turbine, which is connected to the transmission input, converts the flow energy back into mechanical energy.3) The reactor between turbine and pump diverts the flow of the fluid.Thus, the torque output is higher than the pump torque input from the engine. The torque increaseμμ=Mt/Mp is all the higher, the greater the speed difference (slip）between the pump and turbine. Withυ=0, i.e. with the turbine braked to a standstill (stall point, drive-away point), torque conversion reaches its maximum value and falls virtually linearly with rising turbine speed to a torque ratio of 1:1 at the coupling point. Above the coupling point, the reactor, which is supported on the housing by a one-way clutch, runs, torque-free, in the flow. Thus, the converter is now a clutch without torque conversion.For automobiles, the vane geometries are such that, at the drive-away point, the maximum torque increase μA is between 2 and 2.5. The hydraulic efficiencyηhydr=υμis similar in the conversion range to the speed ratioμand reaches values around 97% at high speed.Fluid couplings form the input element of automatic transmissions (in conjunction with planetary-gear trains, clutches, brakes and one-way clutches) and also of manually shifted transmissions in the form converter and clutch unit.三．Constant-mesh TransmissionFig.3-6 illustrates the flow of torque through a typical constant-mesh transmission. This type uses helical or double helical gears which are always in mesh. The mainshaft gear wheels are mounted on bearings and when a gear is required the mainshaft gear is locked to the shaft by a dog clutch.Although the mechanical efficiency is lower the helical gears are quieter and any damage resulting from a bad gear change occurs to the dog teeth instead of the actual gear teeth.元素的力量训练动力传动的要素必须符合下列要求;1)使开车逃走,2)把转矩和速度,3)使不同方向的旋转带动向前和向后,四)推进传送叶轮力量,5)允许不同转速时的驱动轮转弯时,六)保证了优化运行的引擎(或电机)从油耗和尾气排放。

汽车工程专业英语全文翻译一当今的汽车一般都由15000 多个分散、独立且相互配合的零部件组成。

这些零部件主要分为四类：车身、发动机、底盘和电气设备。

Body：车身Engine：发动机Brakes：制动器Power train ：传动系Steering：转向系Electrical：电器及电子设备Suspension：悬架Layout of a passenger car：乘用车总布置Layout of a commercial vehicle ：商用车总布置1.1 车身汽车车身是由车窗、车门、发动机罩和行李箱盖焊接在金属板外壳发动机发动机作为动力装置。

最常见的发动机气缸的排列方式称为发动机配置。

直列式发动机的汽缸呈一列布置。

这个设计创造了一个简单的发动机缸体铸造。

在车辆应用中，汽缸数一般是2-6 缸，汽缸中心线与水平面垂直。

当汽缸数增多时，发动机尺寸和曲轴就成为一个问题。

解决这个问题的办法就是采用V 形（汽缸呈两列布置，且两列气缸之间夹角为V 形）发动机。

这个设计使发动机尺寸和曲轴都变得更短且更坚硬。

前置发动机纵向安装，既可前轮驱动也可后轮驱动。

后置发动机是将发动机安装在后轮后面。

发动机可横置或纵置，一般情况下为后轮驱动。

1.4 电气系统电气系统为起动机、点火系统、照明灯具、取暖器提供电能。

该电平由一个充电电路维护。

1.4.1 充电充电系统为所有汽车电子元件提供电能。

充电系统主要包括：蓄电池，交流发电机，电压调节器，即通常是交流发电机上不可或缺的，充电警告或指示灯和金属丝连成一个完整电路。

蓄电池为起动提供电能 ,然后发动机工作，交流发电机就为所有的电子元件提供电能。

同时也给蓄电池充电即用来使发动机起动。

电压调节器有过充保护作用。

1.4.2 起动起动系统包括：蓄电池、电缆、起动机、飞轮和换向器。

起动时，有两个动作同时运行，该起动机齿轮与飞轮齿圈啮合，并起动电机，然后运行传输到发动机曲轴。

起动机电机将起动机安装在发动机缸体上并由电池供电。

英译汉according to根据acoustic听觉的alleviate易于忍受aneroid空盒气压表as aresult结果as follows如下at idle空转backpressure背压baffled阻挡的be attached to固定在...bedifferent than与...不同bell housing离合器壳bleed放油boil down to归结起来是breaker point type ignition system触点型点火系统build up积累bump碰撞byproduct副产品cam disk平面凸轮cancel out取消carbon monoxide一氧化碳carburetor bowl化油器浮子室cast iron铸铁cast iron铸铁catalytic converter催化转换器centrifugal force离心力charcoal canister碳罐check valve止回阀clutch disc离合器从动盘clutch pedal离合器踏板clutch离合器coil线圈collide with与...相撞compactness紧密condenser电容器contaminate污染control sleeve控制套筒convoluted盘旋的counter消除couple with与...连接coupling device接合装置crankshaft曲轴cross-section横截面delivery valve出油阀diaphragm spring膜片弹簧discrete独立的distributor rotor分火头distributorless ignition system无分电器点火系统distributor分电器diverter valve换向阀drive shaft传动轴drive shaft传动轴drive train传动系effective stroke有效行程electric pump电动燃油泵engage with与...啮合Exhaust Gas Re-circulation（EGR）废气再循环feedback反馈fiberglass玻璃纤维figure数字flat平面flywheel飞轮fuel feed pump输油泵fuel pressure regulator燃油压力调节器fuel rail油轨fulcrum ring导轴衬gas mileage燃油经济性gas pedal加速踏板gear ratio传动比gearbox变速器get up to达到given给定的governor调速器groove沟gulp valve补气阀hall effect sensor霍尔效应传感器hanger吊钩header集气管high tension lead高压导线hinder阻碍hydrocarbon碳氢化合物in detail详细地injector喷油器injector喷油器inline pump直列式喷油泵interpolate内插leftmost最左边的lever杆listens for等着听little or no几乎没有magnetic field磁场manifold歧管manually手动地master cylinder主缸measure off量出meter计量momentarily瞬时地mount安放muffler消声器nitrogen oxides氮氧化合物nothing more than只不过是one-way clutch单向离合器out of phase with与...反相palladium钯PCV=positive crankcase ventilation 曲轴强制通风perforated多孔的phosphorus磷pinion gear小齿轮pivot支点platinum铂plunger barrel柱塞套pre-chamber预燃室pressure plate压盘prevailing主要的primary and secondary circuit初级电路和次级电路pulse width脉冲宽度pump泵轮redirect使改道relay继电器release bearing分离轴承release fork分离拨叉retract缩回return line回油管路rhodium铑ring gear齿圈room空间saturation磁饱和sensor传感器series串联sizable相当大的sludge油泥socket插座solenoid电磁线圈solid state pressure transducer晶体管压力传感器spark plug火花塞speaker扬声器spigot连接管接合spill port溢流口splined hub花键毂stall 停转stall停转stand for代表...stationary静止的stator导轮stepper motor步进电机stick out伸出sulfur dioxide二氧化硫tailpipe尾管taper off逐渐减少telemetry遥测技术tend to必然term学期the body of a car车身the moment一...就throttle body assembly节气门体总成thrust pad止推垫torque converter液力变矩器torsionary扭转的transformer变压器translation移动tremendous巨大的tricky复杂的turbine涡轮turn匝数vane pump叶片式泵wear磨损wind缠绕。

汽车专业英语词汇翻译(A-B)（engine type) liquid cooled, in-line, 4cylinder, carb (发动机型号)水冷，直列，四缸，化油器式(engine) compression ratio (发动机)压缩比(engine) displacement (发动机)排量(engine) fuel (发动机)燃料13-mode 13工况3rd gear 三档齿轮3-way seat 三向座椅4wd control device 四轮驱动控制装置4wd indicator switch 四轮驱动指示灯开关4wd lamp electrical connection 四轮驱动指示灯接线4wd switch 四轮驱动开关5th synchromesh assy. 五档同步器总成6pk belt 6pk 多楔驱动皮带a / c compressor assembly 空调压缩机总成a / c control assembly 空调控制装置a/c & heater assy. 空调加热器总成a/c blower 空调鼓风机a/c clutch 空调压缩机离合器a/c compressor mtg bracket 空调压缩机安装支架a/c control assy. 空调控制器a/c housing assy. 空调箱总成a/c low pressure switch 空调低压开关a/c mode select switch 空调状态选择开关abdomen performance criterion 腹部性能指标abdominal peak force 腹部力峰值abs 防抱死制动系统acceleration fuel system 加速系统acceleration running noise level 加速行驶噪声accelerator interlocking type 加速踏板联锁式accounting foundation 财政基础actual cycle work 实际循环功actual torso angle 实际躯干角adapter 连接器additional features 附加装置additional rule 附加法规adjust screw 调整螺钉adjuster cable 调整拉线adjuster plug 调整盖adjuster screw assy. 调整螺栓总成adjuster washer 调整棘片adjuster, diff. bearing 差速器轴承调整螺母adjustment system 调节装置administration and registration division 管理科agreement concerning the adoption of uniform technical prescriptions for wheeled vehicles, equipment and parts which can be fitted and/or be used on wheeled vehicles and the conditions for reciprocal recognition of approvals granted on the basis of these prescriptions关于对轮式车辆、安装和/或用于轮式车辆的装备和部件采用统一条件并相互认可基于上述条件批准的协定书agreement regulations 协定法规air cleaner 空气滤清器air cleaner assy. 空气滤清器总成air cleaner cartridge 空气滤清器滤芯air compressor 空压机air condition compressor 空调压缩机air direct 空气走向air filter 空气滤清器air flow 空气流向air flow meter 空气流量计air jet 空气量孔air metering hole 空气量孔air path 气道air pressure of tire 轮胎气压air type 空气型air valve 空气阀air-cooled 风冷aisles 通道alcohol 酒精all bearing 球轴承alternater bracket 发动机支架alternator 交流发电机alterntor assembly 交流发电机总成alumininum-rim 铝合金钢圈alumininum opposed model 铝制对开式am/fm cassette stereo radio 调幅/调频立体声收放机ambulance 救护车amended by 修正文amount of exhaust emission 排气排放量amplitude resolution 幅度分辨率analogue magnetic recorder 模拟式磁记录仪analyzer 分析仪anchor plate, brake caliper 制动钳安装支架anchorage 座椅固定装置angle of divergence 偏离角angle of rotation 旋转角angles drift off vertical line 指针偏离垂直线的角度angular diameter of the retro-reflecting device 回复反射装置的角直径annex 附件announcement 公告anti, shutdown screw 防不灭车调整螺钉antilock brake system 防抱死制动系统appendix 附录applicable motor vehicle 适用机动车applicable scope 适用范围applicant 申请人application 申请application for notification 认可申请书approval 认可arm, valve rocket 摇臂armature 转子总成armature shaft 电枢轴arm-rests 靠手article 条article 1 第1条asphalt solution 沥青溶剂attached document 附署文件attached sheet 附表attached table 附表attaching location of seat belt anchorage 座椅安全带固定装置的固定位置attachment 附属文件attendants onboard 车上值班人员automatic chock cover setting 自动阻风门盖调到automotive electric system 汽车电系automotive engine system 引擎系统automatic transmission 自动变速器，自动排挡变速箱auxiliary brake 辅助制动器auxiliary direction indicator lamps 辅助转向信号灯auxiliary spring 副簧auxiliary stop lamp 辅助驻车灯axle case 桥壳axle case assy. 桥壳总成axle ratio 桥速比axle tube 桥管axle weight 轴重back angle level 靠背角水平仪back angle quadrant 靠背角量角器back pan 靠板back spring 回位弹簧backing plate 制动底板backing sheet 衬背板back-up light 倒车灯backup washer 支撑挡圈bail wire 卡紧环balance tube 平衡管ball 钢球ball bearing 球轴承ball joint assy. , upper 上球销总成ball valve 球阀ball valve, inlet 进油口球阀bar 拉杆barrier 障碍壁battery 蓄电池battery terminal 蓄电池接线柱bearing cap 轴承盖bearing cover, input shaft 输入轴轴承盖bearing, connecting rod 连杆轴承bearing, input shaft 输入轴轴承bed for babies 婴儿床bell 带束层bench seat 长条座椅berived cap 轴承盖bezel assy. 框板总成bezel, cluster 表框be pilot 小批量产品blead door 混合风门bleeder screw 放气螺钉blower assy. 鼓风机总成blower motor 鼓风发电机blower resistor 鼓风机电阻blower switch 鼓风机开关body 车身,阀体body & liftgate assembly 车身和举升门总成body assy. 车身总成body block 人体模块body of a/c & heater 空调加热器壳体bolt 主缸连接螺栓bolt, connecting rod 连杆螺栓booster 助力器boot 护罩bosch starter motor assembly “波舍”起动机总成bottle assy. , coolant recover 冷却液回收罐总成bottom houseing, fuel pump 燃油泵下壳体bottom housing, fuel tank 燃油箱下壳体bracket 支架bracket assy. , spring seat 弹簧座支架bracket, steering damper mounting 转向减振器支架brake alarm lamp 制动报警灯brake alarm lamp switch 制动报警灯开关brake booster 制动助力器brake caliper 制动钳brake caliper assy. 制动钳总成brake caliper piston 制动钳活塞brake combination valve 制动组合阀brake disc 制动盘brake drum 制动鼓brake fluid 刹车油brake hose 制动软管brake lining 刹车来令brake line, lf 左前制动油管brake line, rf 右前制动油管brake oil flow 制动液流向brake paddle 制动踏板brake pedal 制动踏板brake pipe 制动管brake shoes 刹车蹄片brake shoe 制动衬块brake system 制动系brake systems for tractors and trailers 牵引车及挂车的制动装置brake tester 制动器试验台brake valve 制动阀brake warning lamp 制动报警灯brake warning switch 制动报警开关braking efficiency 制动效能braking force control system 制动控制装置braking wheel 制动轮branch office 分署breaker 断电器bridge 过桥broadcasting vehicle 广播车brush 碳刷总成buckle 带扣bulkhead 隔板bulldozer 推土机bumper 保险杠bumper element 保险杠构件bus transfer 车辆转移台bushing 衬套bushing, upper control arm 上控制臂衬套business place 业务场所bypass valve 旁通阀。

About car engineOf all automobile components,an automobile engie is the most complicated assembly with dominant effects on the function of an autombile.So, the engine is generally called the"heat"of an automobile.在汽车的所有部件中，汽车发动机是最复杂的组件，其对整车性能有着决定性的作用。

因而发动机往往被称作发动机的“心脏”。

There are actually various types of engines such as electric motors,stream engines,andinternal combustion engines.The internal combustion engines seem to have almost complete dominance of the automotive field.The internal combustion engine,as its name indicates,burns fuel within the cylinders and converts the expanding force of the combustion into rotary force used to propel the vehicle.事实上，按动力来源分发动机有很多种，如电动机、蒸汽机、外燃机等。

然而内燃机似乎在发动机领域有着绝对的统治地位。

就像其字面意思一样，内燃机的染料在气缸内燃烧，通过将燃烧产生气体的膨胀力转换成转动力来驱动发动机前进。

Engine is the power source of the automobile.Power is produced by the linear motion of a piston in a cylinder.However,this linear motion must be changed into rotary motion to turn the wheels of cars or trucks.The puston attached to the top of a connecting rod by a pin,called a piston pin or wrist pin.The bottom of the connecting rod is attached to the crankshaft.The connecting rod transmits the up-and-down motion of the piston to the crankshaft,which changes it into rotary motion.The connecting rod is mounted on the crankshaft with large bearings called rod bearing.Similar bearings, called main bearings,are used to mount the crankshaft in the block.发动机是整部车的动力来源。

0、车辆 vehicle1、底盘 chassis2、货车truck3、微型货车mini truck4、轻型货车light truck5、中型货车medium truck6、重型货车heavy duty truck7、越野汽车off-road truck8、自卸汽车dump truck9、专用汽车special purpose vehicle10、客车passenger car11、车长vehicle length12、车宽vehicle width13、车高vehicle height14、轴距wheel base15、轮距tread16、前悬front overhang17、后悬rear overhang18、柴油机diesel19、汽油机gasoline fueled engine20、活塞piston21、喷油嘴nozzle22、火花塞spark23、曲轴crank shaft24、分电器distributor25、发电机alternator26、飞轮壳flywheel housing27、起动机starter28、散热器radiator29、凸轮轴camshaft30、进气门Intake valve31、排气门exhaust valve32、气缸盖cylinder head33、水泵water pump34、风扇皮带轮fan pulley35、活塞环piston ring36、机油泵oil pump37、离合器clutch38、离合器操纵机构clutch operation39、飞轮flywheel40、从动盘磨擦衬片clutch plate lining driven plate lining (GB)41、离合器盖clutch cover (GB)42、压盘pressure plate43、分离杆release lever44、分离套筒release sleeve45、从动盘clutch plate46、分离弹簧release spring47、分离轴承release thrust bearing48、离合器踏板clutch pedal pad49、分离推杆release rod (operating rod)50、分离推杆叉push-rod fork 51、分离套筒总成sleeve assembly52、分离叉withdrawal fork (operating fork)53、分离叉球头支座operating fork ball-end54、分离叉回位弹簧operating fork return spring55、离合器操纵机构主缸clutch release master cylinder56、变速器transmission57、万向节universal joint58、万向节叉yoke59、突缘叉flange yoke60、十字轴总成cross assembly61、传动轴drive shaft62、中间支承shaft support63、油箱tank64、滤清器filter65、汽油滤清器gasoline filter66、油箱盖fuel tank cap67、后桥rear axle68、主减速器reduction finaldrive69、差速器differential70、桥壳axle housing71、半轴axle shaft72、驾驶室cab73、双排座驾驶室crew cab74、带卧铺驾驶室sleeper cab75、连接板connecting panel76、盖lid77、罩cover78、支架support(bracket . brace)79、骨架member(rail beam)80、密封条weatherstrip81、衬垫pad(packing .gasket)82、装饰件trimming(finisher. molding)83、纵梁side rail(side member)84、横梁cross rail85、轮罩wheel housing86、挡泥板mudguard87、风窗玻璃windshield glass88、侧窗玻璃side window glass89、门窗玻璃door window glass90、后窗玻璃rear window glass91、仪表板instrument panel(facia)92、杂物箱glove box93、翻转机构tilting mechanical hardware94、门铰链hinge95、玻璃升降器window regulator96、后视镜rear view mirror97、刮水器wiper98、风窗洗涤器washer99、遮阳板sun visor100、空调装置air conditioner(air conditioning equipment) 101、暖风装置heater102、扶手handrail (hand grill. banisters)103、拉手assist grip(handle) 104、安全带seat belt105、标牌label106、纵梁main sill107、横梁cross sill108、货箱栏板gate109、边板side gate110、缓冲垫cushion rubber111、车轮wheel112、轮胎tyre113、轮辋rim114、排气消声器silencer115、凸缘flange116、排气管outtake117、钢板弹簧leaf spring118、减振器shock absorber119、吊耳shackle120、钢板弹簧衬套leaf spring bushing 121、钢板弹簧销leaf spring pin122、U型螺栓U bolt123、橡胶衬套rubber bushing124、缓冲块buffer stopper125、驻车制动系parking braking system 126、气压制动系air braking system 127、液压制动系hydraulic braking system 128、制动器brake129、制动管路braking line131、真空泵vacuum pump132、真空筒vacuum tank133、空压机air compressor134、储气筒air storange reservoir 135、单向阀single check valve 136、制动踏板braking pedal137、踏板护套pedal pad138、回位弹簧return spring139、制动主缸brake master cylinder 140、真空助力器vacuum booster141、真空增压器vacum mintensifier 142、制动鼓brake drum143、制动底板brake bottom plate 144、制动衬片friction lining145、制动蹄brake shoe146、转向万向节steering universal joint 147、转向传动轴steering inner articulated 148、转向管柱steering column149、转向盘steering wheel150、摇臂轴pitman arm shaft151、转向螺母steering nut152、动力转向器power steering gear 153、转向摇臂pitman arm154、转向直拉杆steering drag link 155、球头销ball stud 156、球头座ball cup157、转向节臂steering (knuckle) arm158、横拉杆tie rod英语口语第一课.Greetings 问候语1.H ello! / Hi!你好！2. Good morning !3. Good afternoon !4. Good evening!早晨（下午/晚上）好！5. I'm Kathy King.我是凯西·金。