车辆工程外文翻译---汽车悬架

汽车悬架

现代汽车中的悬架有两种，一种是从动悬架，另一种是主动悬架。

从动悬架即传统式的悬架，是由弹簧、减振器（减振筒）、导向机构等组成，它的功能是减弱路面传给车身的冲击力，衰减由冲击力而引起的承载系统的振动。其中弹簧主要起减缓冲击力的作用，减振器的主要作用是衰减振动。由于这种悬架是由外力驱动而起作用的，所以称为从动悬架。

而主动悬架的控制环节中安装了能够产生抽动的装置，采用一种以力抑力的方式来抑制路面对

车身的冲击力及车身的倾斜力。由于这种悬架能够自行产生作用力，因此称为主动悬架。

主动悬架是近十几年发展起来的，由电脑控制的一种新型悬架，具备三个条件：

（1）具有能够产生作用力的动力源；

（2）执行元件能够传递这种作用力并能连续工作；

（3）具有多种传感器并将有关数据集中到微电脑进行运算并决定控制方式。因此，主动悬架汇集了力学和电子学的技术知识，是一种比较复杂的高技术装置。

例如装置了主动悬架的法国雪铁龙桑蒂雅，该车悬架系统的中枢是一个微电脑，悬架上有5 种

传感器，分别向微电脑传送车速、前轮制动压力、踏动油门踏板的速度、车身垂直方向的振幅及频率、转向盘角度及转向速度等数据。电脑不断接收这些数据并与预先设定的临界值进行比较，选择相应的悬架状态。同时，微电脑独立控制每一只车轮上的执行元件，通过控制减振器内油压的变化产生抽动，从而能在任何时候、任何车轮上产生符合要求的悬架运动。因此，桑蒂雅桥车备有多种驾驶模式选择，驾车者只要扳动位于副仪表板上的“正常”或“运动”按钮，轿车就会自动设置在最佳的悬架状态，以求最好的舒适性能。

另外，主动悬架具有控制车身运动的功能。当汽车制动或拐弯时的惯性引起弹簧变形时，主动悬架会产生一个与惯力相对抗的力，减少车身位置的变化。例如德国奔驰2000 款CL 型跑车，当车辆拐弯时悬架传感器会立即检测出车身的倾斜和横向加速度，电脑根据传感器的信息，与预先设定的临界值进行比较计算，立即确定在什么位置

上将多大的负载加到悬架上，使车身的倾斜减到最小。

汽车主动悬架—液压和空气式

从控制力的角度划分，悬架可分为被动悬架，半主动悬架和主动悬架。目前，大多数汽车的悬架系统装有弹簧和减振器，悬架系统内无能源供给装置，其弹性和阻尼不能随外部工况变化，因此称这种悬架是被动悬架。

主动悬架有作为直接力发生器的动作器，可以根据输入与输出进行最优的反馈控制，使悬架有最好的减震特性，以提高汽车的平顺性和操纵稳定性。它由弹性元件C和一个力发生器Fe组成。

半主动悬架可看作由可变特性的弹簧和减振器组成的悬架系统，虽然它不能随外界的输入进行最优的控制和调节，但它可按存储在计算机的各种条件下最优弹簧和减振器的优化参数指令来调节弹簧的刚度和减振器的阻尼状态。它由弹性元件 C 和一个一个阻尼系数能在较大范围内调节的阻尼器组成。

电子技术控制汽车悬架系统主要由（车高、转向角、加速度、路况预测）传感器、电子控制ECU、悬架控制的执行器等组成。系统的控制功能通常有以下三个：

1 车高调整当汽车在起伏不平的路面行驶时，可以使车身抬高，以便于通过；在良好路面高速行驶时，可以降低车身，以减少空气助力，提高操纵稳定性。

2 阻尼力控制用来提高汽车的操纵稳定性，在急转弯、急加速和紧急制动情况下，可以抑制车身姿态的变化。

3 弹簧刚度控制改变弹簧刚度，使悬架满足运动或舒适的要求。采用主动式悬架后，汽车对侧倾、俯仰、横摆跳动和车身的控制都能更加迅速、精确，汽车高速行驶和转弯的稳定性提高，车身侧倾减少。制动时车身前俯小，启动和急加速可减少后仰。即使在坏路面，车身的跳动也较少，轮胎对地面的附着力提高。

一.主动式液压悬架

电子控制的主动式液压悬架能根据悬架的质量和加速度等，利用液压部件主动地控制汽车的振动。主动式液压悬架在轿车上的布置如图所示，在汽车重心附近安装有纵向、横向加速度和横摆陀螺仪传感器，用来采集车身振动、车轮跳动、车身高度和倾斜状态等信号，这些信号被输入到控制单元ECU，ECU 根据输入信号和预先设定的程序发出控制指令，控制伺服电机并操纵前后四个执行油缸工作。

二.主动式空气悬架

在电子控制的主动式空气悬架系统中，微机根据传感器送来的信号和驾驶员给予的控制模式经过运算分析后向悬架发出指令，悬架可以根据微机给出的指令改变悬架的刚度和阻尼系数，是车身在行驶过程中保持良好的稳定性能，并且将车身的振动响应控制在允许的范围内。一般说来，主动式空气悬架的控制内容包括车身高度、减振器衰减力、弹簧弹性系数等三项；

１车高的控制；分标准、升高和只升高后轮三种工作状态；

２减震器的衰减力控制分低、中、高三档；

３空气弹簧的弹性系数分软、硬两档。

空气悬架电子控制系统的工作原理；用空气压缩机形成压缩空气，并将压缩空气送给弹簧和减震器的空气室中，以此来改变车辆的高度。在前轮和后轮的附近设有车高传感器，按车高传感器的输出信号，微机判断出车辆高度，再控制压缩机和排气阀，使弹簧压缩或伸长，从而控制车辆高度。

在减震器内设有电动机，电动机受微机的信号控制。利用电动机可以改变通气孔的大小，从而改变了衰减力的大小。

具体说来，在汽车仪表板上有空气悬架系统的开关，利用开关可以形成6 种不同的工作方式。

自动变速器

自动变速器的选挡杆相当于手动变速器的变速杆，一般有以下几个挡位：P(停车)、R(倒挡)、N(空挡)、D(前进)、S(or2，即为2 速挡)、L(or1，即为1 速挡)。这几个挡位的正确使用对于驾驶自动变速器汽车的人来说尤其重要，下面就让我们一起来熟悉一下自动变速器各挡位的使用要领。

●P(停车挡)的使用

发动机运转时只要选挡杆在行驶位置上，自动变速器汽车就很容易地行走。而停放时，选挡杆必须扳入P 位，从而通过变速器内部的停车制动装置将输出轴锁住，并拉紧手制动，防止汽车移动。

●R(倒挡)的使用

R位为倒挡，使用中要切记，自动变速器汽车不像手动变速器汽车那样能够使用半联动，故在倒车时要特别注意加速踏板的控制。

●N(空挡)的使用

N位相当于空挡，可在起动时或拖车时使用。在等待信号或堵车

时常常将选挡杆保持在D位，同时踩下制动。若时间很短，这样做是允许的，但若停止时间长时最好换入N 位，并拉紧手制动。因为选挡杆在行驶位置上，自动变速器汽车一般都有微弱的行驶趋势，长时间踩住制动等于强行制止这种趋势，使得变速器油温升高，油液容易变质。尤其在空调器工作、发动机怠速较高的情况下更为不利。有些驾驶员为了节油，在高速行驶或下坡时将选挡杆扳到N 位滑行，这很容易烧坏变速器，因为这时变速器输出轴转速很高，而发动机却在怠速运转，油泵供油不足，润滑状况恶化，易烧坏变速器。

●D(前进挡)的使用

正常行驶时将选挡杆放在D 位，汽车可在1～4 挡(或3 挡)之间自动换挡。D位是最常用的行驶位置。需要掌握的是：由于自动变速器是根据油门大小与车速高低来确定挡位的，所以加速踏板操作方法不同，换挡时的车速也不相同。如果起步时迅速将加速踏板踩下，升挡晚，加速能力强，到一定车速后，再将加速踏板很快松开，汽车就能立即升挡，这样发动机噪声小，舒适性好。

D 位的另一个特点是强制低挡，便于高速时超车，在 D 位行驶中迅速将加速踏板踩到底，接通强制低挡开关就能自动减挡，汽车很快加速，超车之后松开加速踏板又可自动升挡。

●S、L 位低挡的使用

自动变速器在S 位或L 位上处于低挡范围，可以在坡道等情况下使用。下坡时换入S位或L位能充分利用发动机制动，避免车轮制动器过热，导致制动效能下降。但是从D位换入S位或L位时，车速不能高于相应的升挡车速，否则发动机会强烈振动，使变速器油温急剧上升，甚至会损坏变速器。

另外在雨雾天气时，若路面附着条件差，可以换入S位或L位，固定在某一低挡行驶，不要使用能自动换挡的位置，以免汽车打滑。同时必须牢记，打滑时可将选挡杆推入N位，切断发动机的动力，以保证行车安全。

附录二：英文翻译

Suspension

The modern of in the car has two kinds of suspension, a kind of suspension is from move , another a kind of suspension is active of.

From move an a function for, is from spring coil, reducing flapping machine( reduce to the flap ), leading to organization etc. constituting, it is vibration that impact to dies down roadecause this kind of can produce the function dint by oneself, therefore call active of .The active of is more than ten years to develop of, from a kind of new of that computer control, have three terms:

(1) have to can produce the motive source of the function dint;

(2) carry out a piece can deliver this kind of function dint combines it can continue the work;

(3) have the variety spreads to feel the machine combines to concentrates the relevant data to micro-computer to proceed to carry to calculate to combine the decision controls the way.Therefore, active a technique for gathering together mechanics with electronics knowledge, is a kind of high technique that compare t pass the carriage dint, the reduces from the impact dint but causable loading system.Among them the spring coil rises primarily the function that deceleration pound at dint, reduce the main function that flap the machine is a to reduce the vibration.Because this kind of be driven by outside dint but rise function of, so call from move .

But active a device for of in the control link installing can producing take out moving, adopt a kind of repress in suppressing the dint by dint the road face the impact dint of the carriage and the inclination dint of the carriage.B o sophisticate to equip.

For example equip active an axis for of France snow iron

dragon mulberry,the car's a system is speed, carriage that a micro-computer, have on the of the 5 kinds of spreading feels machine, distinguish to deliver to micro-computer the car soon, the ex- round system moves the pressure and step to move the accelerator pedal perpendicular flap and frequencies, change direction the dish angle and change direction flat-out etc. data directionally.The computer receives these datases continuously and with in advance the critical value that set up proceeds the comparison, choosing the homologous an appearance.At the same time,on micro-computer independence control.each a car wheel of carry out a dollar a for, passing the control reduce to flap the machine inside hydraulic-pneumatic variety creation take out moving, from but can on any time, any car wheel creation meeting request a sport.Therefore, the mulberry bridge car has various driver's modes chooses, driving as long as pull to move to locate the vice- the " normal" on the instrument panel or" sport" button, car will establishes automatically in the best an appearance, in order to best and comfortable function.

Moreover, active a function for having carriage sport of control.When the car system moves or turns a corner of inertial cause When the spring coil transform, active a dint for would producing first and opposite anti- in the dint of , reduce the variety of the carriage position.For example Germany speeds 2000 CLs type sport car, be, the vehicle turns a corner an inclination for spreading feeling machine would immediately examining carriage with horizontal acceleration, computer according to information that spreading and feeling machine, with in advance the critical value that set up proceeds the comparison computes, immediately certain at where full general how big of loading and adding to .

The active in car a liquid presses with the air type: From the angle demarcation of the control dint, the of can is divided into passive of , active of in half with active

of . Current, the automotive a system has the spring coil with reduce to flap the machine mostly, theincapable source inside

a system insupplies the device, its flexibility can't change with the exterior work with the , therefore calling that this kind of is passive of .

Active an action for thering is direct dint in conduct and actions taking place machine, can according to input and output the superior feedback of proceeding control, making a the of has to reduce to shake the characteristic bestly, toing increase the automotive and going smoothly with manipulate the stability.It constitutes with a dint occurrence machine Fe from the flexibility a C.

Half active a spring coil for can seeing making from variable characteristic with machine that reducing and flapping the a system constitutes, although it can't proceed the superior control with regulate with the outsider importation, it can press saving under every kind of term of the calculator superior spring coil with reduce to flap the machine excellent to turn the parameter instruction to regulate the spring coil just a the appearance of for with reducing flapping machine.It from flexibility a C with a per coefficient can the machine of regulated within the scope of big constitute.

The electronics technique control car a system is main from( the car is high and change direction the Cape, acceleration, road the estimate) spread to feel the machine, electronics control ECU, of control of carry out machine etc. constitute.The control function of the system usually has below three: 1 the car is high to adjust to be the car at rise and fall When the uneven road drive, can make carriage jacked up, in order to in pass;When the good road mades good time, can lower the carriage, to reduce the air help, increase to manipulate the stability.

2 dint controls is used to increase to manipulate the stability automotively, in the flashback curved, nasty

accelerates to move with the urgent system circumstance next, can rr is to the side , horizontal put the flutter with the control of the carriage can more quick, precision, the car mades good time with the stability exaltation of the turn, carriage side reduce.The ex- in carriage is small when system move, starting with nasty accelerate can after reducing .Even in the bad road, the flutter of the carriage too less, the tire increases to the adhesive strength of the ground.

One.The active type liquid presses of

The active type liquid that electronics control presses a quantity for can according to of with acceleration etc., making use of the liquid press the parts actively automotive vibration in control.The active type liquid presses a the of arrange to is sepress the variety of the carriage.

3 spring coil just a control changes spring coil just degree, make a contented sport or comfortable request.

Adopt an empress, cahown as diagram on the car, having in the nearby gearing in center of gravity in car lengthways, horizontal acceleration with horizontal put the top preads to feel machine, use to collect the carriage the vibration, the car wheel jumps about, carriage high degree with tilt to one side appearance etc. signal, these signalses is inputed control unit ECU, ECU according to input signal with in advance the procedure that set up issues to control the instruction, controling the servo electrical engineering combines to manipulate in front and back four carry out a work. two.Active type air .

In electronics control of active type air a system, tiny machine according to spread to feel the machine changeses to an instruction for issuing the instruction, the of can give according to the tiny machine after delivering of the signal with the control mode that pilot give has been carries to calculate the analysis of just degree with the coefficient of , is a carriage within the scope of drives to keeps in the process

good and stable function, and respond to the vibration of the carriage to control at allow of.Say generally, the control contents of the active type air includes the carriage high degree and reduce to flap the machine reduces the dint, spring coil flexibility coefficient waits three item;

1 high control in car;Cent standard, go up with only after going up a three kinds of works appearance;

2 reduce the that shake the machine reduce the dint control the cent low, inside, high three file;

3 the cent of flexibility coefficient of air spring coilses are soft and hard two file.

The air an electronics controls the work principle of the system;Use the air compressor formation compressed air, combine to give the compressed air to spring coil with the air room that reducing and shaking the machine inside, changes with this the high degree of the vehicle.Fore a neighborhood for with empress round establishes the car the high spreading feels machine, press car the high spreading the exportation signal that feels the machine, the tiny machine judges the vehicle the high degree, then control compressor with line up the spirit valve, make spring coil compression or elongation, from butcontrol vehicle high degree.

Establish the electric motor in reduce shook machine, the electric motor suffers the signal control of the tiny machine.Making use of the electric motor can change the size of the air hole . Say in a specific way, switch in last free spirit in instrument panel in car a system, make use of the switch can become 6 kinds of different works method.

The automatic gearbox

The automatic gearbox chooses to block the pole the equal to moving the stick shift of the gearbox, having generally below several blocks:P( parking), R( pour to block), N( get empty to block), D( go forward), S( or2, namely for 2 block soon), L.( or1, namely for 1 block soon)This several an usage for blocking a

right usages coming driver the automatic gearbox is automotive of person to say particularly important, underneath let us very much familiar with once automatic gearbox eachly blockings main theme.

The usage of the P ( the parking blocks)

The launches the luck turns as long as choose to block the pole in driving the position, automatic gearbox car run about very easily.But park, choose to block the pole must pull into of P, from but pass the internal parking system in gearbox moves the device will output the stalk lock lives, combining to tense the hand system move, preventing the car ambulation.

The usage of the R( pour to block)

R a control for is pouring blocking, using inside wanting slicing recording, automatic gearbox car unlike moving gearbox car so can using half moving, so while reversing the car wanting special attention accelerating pedal.

The usage of the N( get empty to block)

The N is equal to get empty to block, can while starting or hour of trailer usage.At wait for the signal or block up the car will often often choose to block the pole keeps in the of D, trampling at the same time the next system move.If time is very short, do like this is an admission of, but if stop the time long time had better change into of N, combine to tense the hand system moves.Because choose to block the pole in driving the position, the automatic gearbox car has generally and all to drive the trend faintly, long hours trample the system move same as a deterrent this kind of trend, make gearbox oil gone up, the oil liquid changes in character easily.Particularly in the air condition machine work, launch the soon higher circumstance in machine bottom more disadvantageous.Some pilots for the sake of stanza oil, at made good time or go down slope will choose to block the pole pull the of N skids, this burn the bad gearbox very easily, launching the machine to revolves soon in the however because the gearbox

outputs at this time the stalk turns soon very high,, the oil pump provides the oil shortage, lubricating the condition worsen, burn the bad gearbox easily.

The usage of the D( go forward to block)

Will choose to block when is normal to drive the pole put in the of D, car can at 1 4 block( or 3 block) its change to block automatically.The of D drives the position most in common usely.What demand control is:Because the automatic gearbox is soon high and low with car to come to make sure to block according to the accelerator size a, so accelerate the pedal operation method is different, changing to block the hour of the car is soon too not same alike.If start hour quick accelerate the pedal tramples the bottom, rising to block the night, accelerating the ability is strong, arriving certain car soon behind, then will accelerate the pedal loosen to open very quickly, car can rise to block immediately, launch like this the machine voice is small, comfortable good.

The another characteristics of the D is a compulsory low blocking, easy to high speed the hour overtakes a car, will accelerate quickly in of D drove the pedal trample after all, connect the compulsory low fend off the pass and then can reduce to block automatically, the car accelerates very quickly, after overtaking a car loosen to open the pedal of acceleration to can rise to block automatically again.

The usage of the S, of L low the usage that block

The automatic gearbox in in is placed in the low blocking the scope on of S or of Ls, can usage under an etc. circumstance.It change to can make use of to launch well into of S or of Ls the mechanism move, avoiding the car wheel system move the machine over hot, cause the system move the effect descent while going down slope.But change into from the of D of S or of L, car soon can't higher than rise to block the car homologously soon, otherwise strong vibration in opportunity to launch, make gearbox oil hoicked, even will damage the

gearbox.

The is another at rain fog weather hour, if the road adheres to the term bad, can change into a position for or of L, fixing at somely first lowly blocking driving, doing not use can automatically changing blocking, in order to prevent the car beats slippery.Must keep firmly in mind at the same time, beat the slippery hour can will choose to block the pole pushes into a motive for, cutting off launching machine, toing guarantee a car the safety.

汽车专业毕业设计外文翻译

On the vehicle sideslip angle estimation through neural networks: Numerical and experimental results. S. Melzi,E. Sabbioni Mechanical Systems and Signal Processing 25 (2011)：14~28 电脑估计车辆侧滑角的数值和实验结果 S.梅尔兹,E.赛博毕宁 机械系统和信号处理2011年第25期：14~28

摘要 将稳定控制系统应用于差动制动内/外轮胎是现在对客车车辆的标准（电子稳定系统ESP、直接偏航力矩控制DYC）。这些系统假设将两个偏航率(通常是衡量板)和侧滑角作为控制变量。不幸的是后者的具体数值只有通过非常昂贵却不适合用于普通车辆的设备才可以实现直接被测量,因此只能估计其数值。几个州的观察家最终将适应参数的参考车辆模型作为开发的目的。然而侧滑角的估计还是一个悬而未决的问题。为了避免有关参考模型参数识别/适应的问题,本文提出了分层神经网络方法估算侧滑角。横向加速度、偏航角速率、速度和引导角,都可以作为普通传感器的输入值。人脑中的神经网络的设计和定义的策略构成训练集通过数值模拟与七分布式光纤传感器的车辆模型都已经获得了。在各种路面上神经网络性能和稳定已经通过处理实验数据获得和相应的车辆和提到几个处理演习(一步引导、电源、双车道变化等)得以证实。结果通常显示估计和测量的侧滑角之间有良好的一致性。 1 介绍 稳定控制系统可以防止车辆的旋转和漂移。实际上，在轮胎和道路之间的物理极限的附着力下驾驶汽车是一个极其困难的任务。通常大部分司机不能处理这种情况和失去控制的车辆。最近,为了提高车辆安全，稳定控制系统(ESP[1,2]; DYC[3,4])介绍了通过将差动制动/驱动扭矩应用到内/外轮胎来试图控制偏航力矩的方法。 横摆力矩控制系统（DYC）是基于偏航角速率反馈进行控制的。在这种情况下,控制系统使车辆处于由司机转向输入和车辆速度控制的期望的偏航率[3,4]。然而为了确保稳定，防止特别是在低摩擦路面上的车辆侧滑角变得太大是必要的[1,2]。事实上由于非线性回旋力和轮胎滑移角之间的关系，转向角的变化几乎不改变偏航力矩。因此两个偏航率和侧滑角的实现需要一个有效的稳定控制系统[1,2]。不幸的是,能直接测量的侧滑角只能用特殊设备(光学传感器或GPS惯性传感器的组合)，现在这种设备非常昂贵,不适合在普通汽车上实现。因此, 必须在实时测量的基础上进行侧滑角估计，具体是测量横向/纵向加速度、角速度、引导角度和车轮角速度来估计车辆速度。 在主要是基于状态观测器/卡尔曼滤波器(5、6)的文学资料里, 提出了几个侧滑角估计策略。因为国家观察员都基于一个参考车辆模型,他们只有准确已知模型参数的情况下，才可以提供一个令人满意的估计。根据这种观点,轮胎特性尤其关键取决于附着条件、温度、磨损等特点。 轮胎转弯刚度的提出就是为了克服这些困难,适应观察员能够提供一个同步估计的侧滑角和附着条件[7,8]。这种方法的弊端是一个更复杂的布局的估计量导致需要很高的计算工作量。 另一种方法可由代表神经网络由于其承受能力模型非线性系统，这样不需要一个参

工业工程 外文期刊 翻译_

Adrian Payne & Pennie Frow A Strategic Framework for Customer Relationship Management Over the past decade, there has been an explosion of interest in customer relationship management (CRM) by both academics and executives. However, despite an increasing amount of published material,most of which is practitioner oriented, there remains a lack of agreement about what CRM is and how CRM strategy should be developed. The purpose of this article is to develop a process-oriented conceptual framework that positions CRM at a strategic level by identifying the key crossfunctional processes involved in the development of CRM strategy. More specifically, the aims of this article are ?To identify alternative perspectives of CRM, ?To emphasize the importance of a strategic approach to CRM within a holistic organizational context, ?To propose five key generic cross-functional processes that organizations can use to develop and deliver an effective CRM strategy, and ?To develop a process-based conceptual framework for CRM strategy development and to review the role and components of each process.

车辆工程汽车离合器的外文文献翻译

经典文档下载后可编辑复制 湖北文理学院 毕业设计(论文)英文翻译 题目有限元热分析的陶瓷离合器 专业车辆工程 班级Xxx 姓名Xxxx 学号2010138xx 指导教师 职称Xxx 副教授 2014年2月25日

Fethermal analysis of a ceramic clutch 1. Introduction Abrasive dry running vehicle clutches are force closure couplings. Torque and speed transmission are ensured by the frictional force generated between two pressed surfaces. Reasons for the application of ceramic as a friction medium include good heat and wear resistance properties, which provide the opportunity to drive higher pressures, and a low density. Thus, an increasing power density is enabled with a parallel minimization of construction space. Measurements with a first prototype of a clutch disk using ceramic facings were performed at Karlsruhe University in a laboratory specialized in passenger car drive system testing. In the course of analysis the finite element (FE) model was to be constructed with the knowledge of measurement data and measurement conditions. Calculations were intended to determine the temperature distribution of the clutch disk and its environment at each moment in time corresponding to measurements. It is essential to be familiar with the temperature range in order to examine the wear characteristics of the system. Thus, important information is derived from measurement data. In critical load cases, the highest expected temperatures must be forecast in space and time in order to protect measuring instruments close to the location of heat generation. The goal of this study is to analyze and modify the clutch system to provide better operating conditions by improving the heat conduction and convection of the system or to increase the amount of the energy converted into frictional heat. Furthermore, it is desired to find better design solutions for more efficient clutch systems. Calculations were performed by the Cosmos Design Star software. During model development, great care had to be taken for proper simplification of geometry, the selection of element sizes, and the correct adjustment of time steps due to the substantial hardware requirements for transient calculations. Changes in thermal parameters such as the surface heat convection coefficient and thermal load had to be taken into consideration on an on-going basis in terms of time and location. The two sides of the analyzed test clutch system can only be managed by two independent models linked by heat partition,

外文文献翻译：汽车的发展

The development of automobile As the world energy crisis and the war and the energy consumption of oil -- and are full of energy in one day someday it will disappear without a trace. Oil is not inresources. So in oil consumption must be clean before finding a replacement. With the development of science and technology the progress of the society people invented the electric car. Electric cars will become the most ideal of transportation. In the development of world each aspect is fruitful especially with the automobile electronic technology and computer and rapid development of the information age. The electronic control technology in the car on a wide range of applications the application of the electronic device cars and electronic technology not only to improve and enhance the quality and the traditional automobile electrical performance but also improve the automobile fuel economy performance reliability and emission spurification. Widely used in automobile electronic products not only reduces the cost and reduce the complexity of the maintenance. From the fuel injection engine ignition devices air control and emission control and fault diagnosis to the body auxiliary devices are generally used in electronic control technology auto development mainly electromechanical integration. Widely used in automotive electronic control ignition system mainly electronic control fuel injection system electronic control ignition system electronic control automatic transmission electronic control ABS/ASR control system electronic control suspension system electronic control power steering system vehicle dynamic control system the airbag systems active belt system electronic control system and the automatic air-conditioning and GPS navigation system etc. With the system response the use function of quick car high reliability guarantees of engine power and reduce fuel consumption and emission regulations meet standards. The car is essential to modern traffic tools. And electric cars bring us infinite joy will give us the physical and mental relaxation. Take for example automatic transmission in road can not on the clutch can achieve automatic shift and engine flameout not so effective improve the driving convenience lighten the fatigue strength. Automatic transmission consists mainly of hydraulic torque converter gear transmission pump hydraulic control system electronic control system and oil cooling system etc. The electronic control of suspension is mainly used to cushion the impact of the body and the road to reduce vibration that car getting smooth-going and stability. When the vehicle in the car when the road uneven road can according to automatically adjust the height. When the car ratio of height low set to gas or oil cylinder filling or oil. If is opposite gas or diarrhea. To ensure and improve the level of driving cars driving stability. Variable force power steering system can significantly change the driver for the work efficiency and the state so widely used in electric cars. VDC to vehicle performance has important function it can according to the need of active braking to change the wheels of the car car motions of state and optimum control performance and increased automobile adhesion controlling and stability. Besides these appear beyond 4WS 4WD electric cars can greatly improve the performance of the value and ascending simultaneously. ABS braking distance is reduced and can keep turning skills effectively improve the stability of the directions simultaneously reduce tyre wear. The airbag appear in large programs protected the driver and passengers safety and greatly reduce automobile in collision of drivers and passengers in the buffer to protect the safety of life. Intelligent electronic technology in the bus to promote safe driving and that the other functions. The realization of automatic driving through various sensors. Except some smart cars equipped with multiple outside sensors can fully perception of information and traffic facilities

工业工程外文翻译

毕业设计(论文)英文翻译 学生姓名：学号： 所在学院：经济与管理学院 专业：工业工程 设计(论文)题目：好孩子推车事业部总装线生产线优化设计指导教师：

The Methods for Solving the Problem of Balancing an Assembly Line Currently, along with the market changing, some forerunners production mode got an extensive application in the manufacturing industry. How raise a whole efficiency of assembling the production line, reduce a work preface in the ware, and pursue to synchronize production is valued by more and more people. The production of manufacturing industry is most likely after carrying on subdividing to turn of have another a work preface flowing water to turn a continuous homework production line, at this time because of division of homework, the time of each work preface operates can't completely the same in theoretically and physically, this phenomenon that certainly will lead to a work preface homework burden unbalance. In addition to losing, result in the meaningless man-hour also result in a great deal of work preface pile up, sometimes will result in the abeyance of production line. Assembly line balance is a kind of means and method for resolving an above-mentioned problem, it is to make all work carry on equally, carrying on a research to the homework, carrying on a measurement to time, making the Assembly line moving smoothly. The assemble is the last link of production, assembling process mainly with the gearing of parts, tightly solid in lord; secondly allied connect, press to pack and add to note various work to lie quality and quality examination of work preface, sometimes still want to choose to pack according to the customer intention. The whole assemble homework is complicated, belonging to a labor an intensive type engineering. Therefore, the balance of exaltation assembly line has important realistic meaning to exaltation's production efficiency of the car assembly line. The assembly line equilibrium problem is the long-lost type of a type of typical model the combination is excellent to turn a problem, particularly is for random, many the assembly line equilibrium problem of target, solve to the satisfaction seldom more on a certain degree. Mainly is divided into the following 3 aspects to the research of assembly line equilibrium problem currently: Give the rhythm of the assembly line certainly beg minimum work station number, usually in the assembly line of design and install the stage carry on; The minimum work station given to settle assembly line number, make the rhythm of assembly line minimum, to already exist of the production line carry on adjust excellent turn; Get in work station number and rhythm of assembly line excellent turn under certain condition, all sparse assemble the burden of on-line work station, give the staff member a kind of fair feeling. Because the balance of

汽车制动系统(机械、车辆工程毕业论文英文文献及翻译)

Automobile Brake System汽车制动系统 The braking system is the most important system in cars. If the brakes fail, the result can be disastrous. Brakes are actually energy conversion devices, which convert the kinetic energy (momentum) of the vehicle into thermal energy (heat).When stepping on the brakes, the driver commands a stopping force ten times as powerful as the force that puts the car in motion. The braking system can exert thousands of pounds of pressure on each of the four brakes. Two complete independent braking systems are used on the car. They are the service brake and the parking brake. The service brake acts to slow, stop, or hold the vehicle during normal driving. They are foot-operated by the driver depressing and releasing the brake pedal. The primary purpose of the brake is to hold the vehicle stationary while it is unattended. The parking brake is mechanically operated by when a separate parking brake foot pedal or hand lever is set. The brake system is composed of the following basic components: the “master cylinder” which is located under the hood, and is directly connected to the brake pedal, converts driver foot’s mechanical pressure into hydraulic pressure. Steel “brake lines” and flexible “brake hoses” connect the master cylinder to the “slave cylinders” located at each wheel. Brake fluid, specially designed to work in extreme conditions, fills the system. “Shoes” and “pads” are pushed by the slave cylinders to contact the “drums” and “rotors” thus causing drag, which (hopefully) slows the c ar. The typical brake system consists of disk brakes in front and either disk or drum brakes in the rear connected by a system of tubes and hoses that link the brake at each wheel to the master cylinder (Figure). Basically, all car brakes are friction brakes. When the driver applies the brake, the control device forces brake shoes, or pads, against the rotating brake drum or disks at wheel. Friction between the shoes or pads and the drums or disks then slows or stops the wheel so that the car is braked.

道路与桥梁专业外文翻译中英对照

道路与桥梁专业外文翻译 中英对照 Jenny was compiled in January 2021

本科毕业设计（论文） 专业名称：土木工程专业（道路与桥 梁） 年级班级：道桥08-5班学生姓名： 指导教师： 二○一二年五月十八日 专业外文翻译

Geometric Design of Highways The road is one kind of linear construction used for travel. It is made of the roadbed, the road surface, the bridge, the culvert and the tunnel. In addition, it also has the crossing of lines, the protective project and the traffic engineering and the route facility. The roadbed is the base of road surface, road shoulder, side slope, side ditch foundations. It is stone material structure, which is designed according to route's plane position .The roadbed, as the base of travel, must guarantee that it has the enough intensity and the stability that can prevent the water and other natural disaster from corroding. The road surface is the surface of road. It is single or complex structure built with mixture. The road surface require being smooth, having enough intensity, good stability and anti-slippery function. The quality of road surface directly affects the safe, comfort and the traffic. Highway geometry designs to consider Highway Horizontal Alignment, Vertical Alignment two kinds of linear and cross-sectional composition of coordination, but also pay attention to the smooth flow of the line of sight, etc. Determine the road geometry, consider the topography, surface features, rational use of land and environmental protection factors, to make full use of the highway geometric components of reasonable size and the linear combination. Design The alignment of a road is shown on the plane view and is a series of straight lines called tangents connected by circular. In modern practice it is common to interpose transition or spiral curves between tangents and circular curves.

汽车保险中英文对照外文翻译文献

汽车保险中英文对照外文翻译文献(文档含英文原文和中文翻译)

汽车保险 汽车保险是在事故后保证自己的财产安全合同。尽管联邦法律没有强制要求，但是在大多数州（新罕布什和威斯康星州除外）都要求必须购买汽车保险；在各个州都有最低的保险要求。在鼻腔只购买汽车保险的两个州，如果没有足够的证据表明车主财力满足财务责任法的要求，那么他就必须买一份汽车保险。就算没有法律规定，买一份合适的汽车保险对司机避免惹上官和承担过多维修费用来说都是非常实用的。 依据美国保险咨询中心的资料显示，一份基本的保险单应由6个险种组成。这其中有些是有州法律规定，有些是可以选择的，具体如下： 1.身体伤害责任险 2.财产损失责任险 3.医疗险或个人伤害保护险 4.车辆碰撞险 5.综合损失险 6.无保险驾驶人或保额不足驾驶人险 责任保险 责任险的投保险额一般用三个数字表示。不如，你的保险经纪人说你的保险单责任限额是20/40/10，这就代表每个人的人身伤害责任险赔偿限额是2万美元，每起事故的热身上海责任险赔偿限额是4万美元，每起事故的财产损失责任险的赔偿限额是1万美元。 人身伤害和财产损失责任险是大多数汽车保险单的基础。要求汽车保险的每个州都强令必须投保财产损失责任险，佛罗里达是唯一要求汽车保险但不要求投保人身伤害责任险的州。如果由于你的过错造成了事故，你的责任险会承担人身伤害、财产损失和法律规定的其他费用。人身伤害责任险将赔偿医疗费和误工工资；财产损失责任险将支付车辆的维修及零件更换费用。财产损失责任险通常承担对其他车辆的维修费用，但是也可以对你的车撞坏的灯杆、护栏、建筑物等其他物品的损坏进行赔偿。另一方当事人也可以决定起诉你赔偿精神损失。

工业工程英文文献及外文翻译

附录 附录1：英文文献 Line Balancing in the Real World Abstract:Line Balancing (LB) is a classic, well-researched Operations Research (OR) optimization problem of significant industrial importance. It is one of those problems where domain expertise does not help very much: whatever the number of years spent solving it, one is each time facing an intractable problem with an astronomic number of possible solutions and no real guidance on how to solve it in the best way, unless one postulates that the old way is the best way .Here we explain an apparent paradox: although many algorithms have been proposed in the past, and despite the problem’s practical importance, just one commercially available LB software currently appears to be available for application in industries such as automotive. We speculate that this may be due to a misalignment between the academic LB problem addressed by OR, and the actual problem faced by the industry. Keyword:Line Balancing, Assembly lines, Optimization

2019年车辆工程专业毕业论文_外文翻译1.doc

Drive force control of a parallel-series hybrid system Abstract Since each component of a hybrid system has its own limit of performance, the vehicle power depends on the weakest component. So it is necessary to design the balance of the components. The vehicle must be controlled to operate within the performance range of all the components. We designed the specifications of each component backward from the required drive force. In this paper we describe a control method for the motor torque to avoid damage to the battery, when the battery is at a low state of charge. Society of Automotive Engineers of Japan, Inc. and Elsevier Science B.V. All rights reserved. 1. Introduction In recent years, vehicles with internal combustion engines have increasingly played an important role as a means of transportation, and are contributing much to the development of society. However, vehicle emissions contribute to air pollution and possibly even global warming, which require effective countermeasures. Various developments are being made to reduce these emissions, but no further large improvements can be expected from merely improving the current engines and transmissions. Thus, great expectations are being placed on the development of electric, hybrid and natural gas-driven vehicles. Judging from currently applicable technologies, and the currently installed infrastructure of gasoline stations, inspection and service facilities, the hybrid vehicle, driven by the combination of gasoline engine and electric motor, is considered to be one of the most realistic solutions. Generally speaking, hybrid systems are classified as series or parallel systems. At Toyota, we have developed the Toyota Hybrid System (hereinafter referred to as the THS) by combining the advantages of both systems. In this sense the THS could be classified as a parallel-series type of system. Since the THS constantly optimizes engine operation, emissions are cleaner and better fuel economy can be achieved. During braking, Kinetic energy is recovered by the motor, thereby reducing fuel consumption and subsequent CO 2 emissions. Emissions and fuel economy are greatly improved by using the THS for the power train system. However, the THS incorporates engine, motor, battery and other components, each of which has its own particular capability. In other words, the driving force must be generated within the limits of each respective component. In particular, since the battery output varies greatly depending on its level of charge, the driving force has to be controlled with this in mind. This report clarifies the performance required of the respective THS components based on the driving force necessary for a vehicle. The method of controlling the driving force, both when the battery has high and low charge, is also described. 2. Toyota hybrid system (THS) [1,2] As Fig. 1 shows, the THS is made up of a hybrid transmission, engine and battery. 2.1. Hybrid transmission The transmission consists of motor, generator, power split device and reduction gear. The power split device is a planetary gear. Sun gear, ring gear and planetary carrier are directly connected to generator, motor and engine, respectively. The ring gear is also connected to the reduction gear. Thus, engine power is split into the generator and the driving wheels. With this type of mechanism, the