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毕业论文物流管理外文翻译

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毕业论文物流管理外文翻译

Car partsEngine The engine is a power plant, which provides power to drive the automobile. In most automobile engines,the explosive power of the mixture of air and gasoline drives the pistons.The pistons turn a crankshaft to which they are attached The rotating force of the crankshaft makes the automobile’s wheels turn.Some automobiles are powered by another kind of engine,known as the rotary valve,rotating combustion engine or Wankel engine The rotary valve engine also draws in a mixture of air and fuel, which is then compressed and burnt.A motor revolving in an elliptical chamber is connected to a shaft,Which finally drives the rear wheels.In most automobiles.the engine is mounted at the front end of the car,with the clutch and gearbox immediately behind it;the engine, clutch and gearbox are assembled into a single unit A number of systems are necessary to make an engine work . A lubrication system is neededto reduce friction and prevent engine wear. A cooling system is required to keep the engine’s temperature within safe limits .The engine must be provided with the correct amount of air and fuel by a fuel system. The mixture of air and fuel must be ignited inside the cylinder at just the right time by an ignition system.Finally, an electrical system is required to operate the cranking motor that starts the engine and to provide electrical energy to power engine accessoriesLubrication System An engine has many moving parts which eventually develop wear,as they move against each other.The engine circulates oil between these moving parts to prevent the metal-to-metal contact that results in wear. Parts that are oiled can move more easily with less friction and hence power loss due to friction is minimized.The secondary function of lubricant is to act as a coolant and also as a sealing medium to prevent leakages.Finally,a film of lubricant on the cylinder walls helps the tings in sealing and thus improves the engine’s compressions.Cooling System Due to the combustion of fuel with air inside the cylinder,the temperature of the engine parts increases.This increase of temperature directly affects the engine performance and the life of the engine parts.The cooling system keeps the engine operating at the efficient temperature.Whatever the driving conditions, the system is designed to prevent both overheating and overcooling.Fuel System The main function of the fuel supply system is to provide fuel to the carburetor or injection system at a rate and pressure sufficient to meet engine demands under all conditions of load,speed and gradients encountered by the vehicle.The fuel system must also have enough reserve fuel for several miles of vehicle operation.Ignition System The purpose of the ignition system is to provide assistance for the combustion of fuel either by a high voltage spark or self-ignition in each of the engine’s cylinder at the right time so that the air-fuel mixture can burn completely. The fuel supplied to the combustion chamber must be ignited to deliver power.In a spark—ignition engine an electric spark is used for this purpose.The compression—ignition engine does not require a separate ignition system because the ignition is affected by compression of the mixture to a high pressure. Electrical System The engine’s electrical system provides energy to operate a starting motor and to power all the accessories.The main components of the electrical system are a battery,an alternator, a starting motor, ignition coil and heater.Frame The frame provides a foundation for the engine and the body of the vehicle . The flame is constructed from square or box-shaped steel members strong enough to support the weight of the body and other components. The automobile frame is usually made up of a number of members welded or riveted together to give the final shape.The engine is mounted on the frame with rubber pads which absorb vibrations and also provide damping of these vibrations.Absorption and damping of vibrations protects passengers from discomfort caused by shocks. The frame is supported on wheel axles by means of springs.This whole assembly is calledthe chassis. Suspension System The function of the suspension system is to absorb vibrations due to the up and down motion of wheels.caused by the irregularities in the road surface . The springs, connecting linkages.and shock absorber comprise the suspension system of a vehicle.The suspension system is of two types: (1)Rigid system(2)Independent systemIn the rigid system, the road springs are attached to a rigid beam axle. It is mostly used in the front axle of commercial vehicles and in the car axle of all types of independent system does not have a rigid axle. Each wheel is free to move vertically without any reaction on its mating wheel. The independent system is mostly used in small cars Power TrainThe power train carries the power that the engine produces to the car wheels. It consists of the clutch (on cars with a manual transmission), transmission (a system of gears that increases the turning effort of the engine to move the automobile ),drive shaft, differential and rear clutch is required with the manual transmission system to temporarily disconnect the engine from wheels. Such disengagement of the power train from the engine is essential while changing the gear ratio or while stopping the main function of the transmission is to provide the necessary variation to the torque applied by the engine to the wheels. This is achieved by changing the gearing ratio between the engine output shaft and the drive ShaftThe drive shaft or propeller connects the gearbox and the differential unit. The drive shaft has universal joints at its ends.DifferentialThe function of the differential is to split the power received from the propeller shaft to the rear axle shaft. It allows the rear wheels to be driven at different speeds when the vehicle takes a bend or falls into a ditch. AxlesAxles are the shafts on which road wheels are mounted. The road wheels are provided with the required drive through these axles.WheelThe automobile wheels take the load of the vehicle and also produce tractive force to move the vehicle. The wheels are also used for retardation and for stopping the SystemThe steering system is used for changing the direction of the vehicle .The major requirements in any steering mechanism are that it should be precise and easy to handle, and that the front wheels should have a tendency to return to the straight-ahead position after a turn. A gear mechanism, which is known as steering gear, is used in this system to increase the steering effort provided by the driver. This system makes the vehicle steering very easy as the driver does not have to put in much effort.Vehicle steering is not only required on a curved road but also while maneuvering on the busy traffic roads.The steering system allows the vehicle to be guided i.e.to be turned left or right. Braking SystemBrakes are required for slowing down or stopping a moving vehicle.The braking system may be operated mechanically or hydraulically. 95 percent of the braking systems in use today are of the hydraulic brake consist of two members.one rotating and the other stationary.There are various means by which the two member call be brought in contact,thus reducing the speed of the major components of the braking system are:brake pedal, master cylinder, wheel Cylinder, brake pipe,brake shoes.brake packing plant and linkages.As the load on the vehicle and the vehicle speed has increased according to recent trends.in modem days, the importance of the braking system has also increased and power brakes are now being preferred.Power brakes utilize vacuum and air pressure to provide most of the brake————applying effort.汽车部件发动机发动机是一种动力机械设备.它为汽车提供动力。在大部分汽车发动机中.空气和汽油的混合气体产生的爆炸性能量驱动活动活塞运动。活塞使它们所连接的曲轴转动。曲轴的转动力量使汽车的车轮转动。一些汽车是由另外一种发动机提供动力的,这种发动机被认为是旋转气门、旋转燃烧或汪克尔发动机。转子发动机也是吸入空气和燃料的混合气,混合气被压缩和燃烧•在一个椭圆形的室内旋转的发动机连接着一个轴,这个轴将最终驱动后面的车轮。大部分汽车中,发动机是架在汽车的前面末端的,离台器和变速箱在它后面,发动帆、离台器和变速箱被装配成一个整体。发动机工作时有很多系统都是必要的。润滑系统可以减少摩擦并减轻发动机磨损。冷却系统被用来保持发动机的温度在安全范围内。发动机必须有燃油系统保证适当数量的空气和燃料供给。空气和燃油混合物必须由点火系统在适当的时间在气缸内被点燃。最后,电子系统被用来控制启动发动机用的电动机和为发动机附件提供电能。润滑系统发动机有许多最终会被磨损的运动部件,因为它们是相对运动的。发动机使润滑油在这些运动的部件间循环,以避免因金属与金属之间的接触而导致磨损。被润滑过的部件能够因为摩擦减少而容易运动,因摩擦导致的能量损失是最小的。润滑油的第二个功能是作为冷却液和防止泄露。最后,气缸壁上的润滑油薄膜有助于活塞环密封并因此提高发动机的压缩性。冷却系统 由于燃料与空气在气缸内燃烧,从而使发动机部件温度升高。温度升高直接影响发动机的性能和发动机部件的寿命。冷却系统使发动机工作保持在有效的温度。不管驾驶条件如何,发动机系统被设计成既能防止过热又能防止过冷。燃料供给系统燃料供给系统的主要功能是以一定的比例和压力给化油器或喷射系统提供燃料,并在汽车遇到的所有情况下,满足发动机对负载、速度和坡度的需要。燃料系统也必须为汽车行驶几英里保留足够的燃料。点火系统点火系统的作用是在适当的时间使燃料燃烧,不管是高压电火花还是在每个发动机气缸中的自燃,以便于气体混合物的完全燃烧。提供给燃料室的燃料必须被点燃以提供能量。在一个火花点火发动机中,电火花就是用于这个目的。压缩点火发动机不需要一个独立的点火系统,因为点火会受混合气压缩压力的影响。电气系统发动机的电气系统提供能量给起动电动机并给所有附件提供电能。电气系统的主要构件是蓄电池、交流发电机、起动电动机、点火线圈和加热器。车架车架为汽车发动机和车身提供了一个安装框架。车架用方刚或盒形钢铁制造,有足够的强度支撑车身和其他构件的重量。汽车车架通常由一些焊接或铆接在一起的零件构成,从而形成最后的形状。发动机和橡胶垫被圈定在车架上。橡胶垫可以吸收振动,也可以提供这些振动的阻尼减轻乘客由于振动产生的不适。悬架系统悬架系统的功能是吸收由于路面不平使车轮上下运动所产生的振动。弹性元件、连接装置和减振器组成了汽车的悬架系统。悬架系统有两种类型:(1)刚性悬架系统(2)独立悬架系统在刚性悬架系统中,弹簧被系在刚性横梁上,这种系统主要被用在商用车辆的前轴和所有类型车辆的车轴上。独立悬架系统没有一根坚硬的轴。每个车架可以自由做垂直运动而相对应的另一侧车轮没有任何反应。独立悬架系统主要用在小汽车上。传动系统传动系把发动机产生的能量传递给车轮。它包括离台器(汽车上用手动变速器)、传动系(一系列的齿轮,把由发动机产生的转矩增强.推动汽车)、驱动轴、差速器和后挢。离合器离合器用于手动变速的传动系统。用它暂时把发动机和车轮之间的动力传递分开。当换档或停车时,把传动系和发动机的连接断开是很必要的。变速籍变速箱的主要功能是通过发动机把各种必需的扭矩提供给车轮,这是通过改变发动机输出轴和驱动轴两者之阃的传动比来实现的。驱动轴驱动轴或叫推动轴与齿轮箱和差动器相连。驱动轴通常在末端具有万向节。差速器差速器的功能是把来自传动轴的能量分给后轿。当汽车转弯或掉沟时,它允许后轮以不同的逮度驱动。车轿车桥是指用来安装车轮的轴,通过这些车桥向车轮提供必需的驱动力。 车轮车轮支承着整辆车.并产生牵引力来驱动汽车。车轮也用于减速和停车。转向系统转向系统是用来改变汽车方向的,在任何转向机构中最主要的就是转向精确且容易控制,同时前轮在转向后又能自动回正。一个齿轮机构,通常认为是转向齿轮,在这个系统内用来增强由驾驶员提供的转向力,这个系统使得汽车转向非常容易,驾驶员不用费报大的力。不仅仅是在弯曲的公路上需要汽车转向,在交通拥挤的路上也需要巧妙地控制。转向系统使得汽车可以被控制向左或者向右转向。制动系统制动用来使车辆放慢速度或者停车。制动系统可以是机械制动或者液压制动。现在用的制动系统95%都是液压型的。所有的制动系统都包含两种元件,一种是旋转零件,另一种是固定零件,有各种各样方法使得这两个元件相接触而使车辆减速。制动系统的主要组成部分:制动踏扳、主制动缸、车轮制动、制动鼓、制动管路、制动蹄、制动装备和联动装置。随着汽车负载和车速的增大,目前制动系统的重要性也在增大,并且现在人们更喜欢助力制动。助力制动利用真空和空气压力来提供更好的制动力。

正在做这个项目,不过没有英文。

Car partsEngine The engine is a power plant, which provides power to drive the automobile. In most automobile engines,the explosive power of the mixture of air and gasoline drives the pistons.The pistons turn a crankshaft to which they are attached The rotating force of the crankshaft makes the automobile’s wheels turn.Some automobiles are powered by another kind of engine,known as the rotary valve,rotating combustion engine or Wankel engine The rotary valve engine also draws in a mixture of air and fuel, which is then compressed and burnt.A motor revolving in an elliptical chamber is connected to a shaft,Which finally drives the rear wheels.In most automobiles.the engine is mounted at the front end of the car,with the clutch and gearbox immediately behind it;the engine, clutch and gearbox are assembled into a single unit Suspension System The function of the suspension system is to absorb vibrations due to the up and down motion of wheels.caused by the irregularities in the road surface . The springs, connecting linkages.and shock absorber comprise the suspension system of a vehicle.The suspension system is of two types: (1)Rigid system(2)Independent systemIn the rigid system, the road springs are attached to a rigid beam axle. It is mostly used in the front axle of commercial vehicles and in the car axle of all types of independent system does not have a rigid axle. Each wheel is free to move vertically without any reaction on its mating wheel. The independent system is mostly used in small cars Power TrainThe power train carries the power that the engine produces to the car wheels. It consists of the clutch (on cars with a manual transmission), transmission (a system of gears that increases the turning effort of the engine to move the automobile ),drive shaft, differential and rear clutch is required with the manual transmission system to temporarily disconnect the engine from wheels. Such disengagement of the power train from the engine is essential while changing the gear ratio or while stopping the main function of the transmission is to provide the necessary variation to the torque applied by the engine to the wheels. This is achieved by changing the gearing ratio between the engine output shaft and the drive ShaftThe drive shaft or propeller connects the gearbox and the differential unit. The drive shaft has universal joints at its ends.DifferentialThe function of the differential is to split the power received from the propeller shaft to the rear axle shaft. It allows the rear wheels to be driven at different speeds when the vehicle takes a bend or falls into a ditch. AxlesAxles are the shafts on which road wheels are mounted. The road wheels are provided with the required drive through these axles.WheelThe automobile wheels take the load of the vehicle and also produce tractive force to move the vehicle. The wheels are also used for retardation and for stopping the SystemThe steering system is used for changing the direction of the vehicle .The major requirements in any steering mechanism are that it should be precise and easy to handle, and that the front wheels should have a tendency to return to the straight-ahead position after a turn. A gear mechanism, which is known as steering gear, is used in this system to increase the steering effort provided by the driver. This system makes the vehicle steering very easy as the driver does not have to put in much effort.Vehicle steering is not only required on a curved road but also while maneuvering on the busy traffic roads.The steering system allows the vehicle to be guided i.e.to be turned left or right. Braking SystemBrakes are required for slowing down or stopping a moving vehicle.The braking system may be operated mechanically or hydraulically. 95 percent of the braking systems in use today are of the hydraulic brake consist of two members.one rotating and the other stationary.There are various means by which the two member call be brought in contact,thus reducing the speed of the major components of the braking system are:brake pedal, master cylinder, wheel Cylinder, brake pipe,brake shoes.brake packing plant and linkages.As the load on the vehicle and the vehicle speed has increased according to recent trends.in modem days, the importance of the braking system has also increased and power brakes are now being preferred.Power brakes utilize vacuum and air pressure to provide most of the brake————applying effort.汽车部件发动机发动机是一种动力机械设备.它为汽车提供动力。在大部分汽车发动机中.空气和汽油的混合气体产生的爆炸性能量驱动活动活塞运动。活塞使它们所连接的曲轴转动。曲轴的转动力量使汽车的车轮转动。一些汽车是由另外一种发动机提供动力的,这种发动机被认为是旋转气门、旋转燃烧或汪克尔发动机。转子发动机也是吸入空气和燃料的混合气,混合气被压缩和燃烧•在一个椭圆形的室内旋转的发动机连接着一个轴,这个轴将最终驱动后面的车轮。大部分汽车中,发动机是架在汽车的前面末端的,离台器和变速箱在它后面,发动帆、离台器和变速箱被装配成一个整体。发动机工作时有很多系统都是必要的。润滑系统可以减少摩擦并减轻发动机磨损。冷却系统被用来保持发动机的温度在安全范围内。发动机必须有燃油系统保证适当数量的空气和燃料供给。空气和燃油混合物必须由点火系统在适当的时间在气缸内被点燃。最后,电子系统被用来控制启动发动机用的电动机和为发动机附件提供电能。润滑系统发动机有许多最终会被磨损的运动部件,因为它们是相对运动的。发动机使润滑油在这些运动的部件间循环,以避免因金属与金属之间的接触而导致磨损。被润滑过的部件能够因为摩擦减少而容易运动,因摩擦导致的能量损失是最小的。润滑油的第二个功能是作为冷却液和防止泄露。最后,气缸壁上的润滑油薄膜有助于活塞环密封并因此提高发动机的压缩性。冷却系统 由于燃料与空气在气缸内燃烧,从而使发动机部件温度升高。温度升高直接影响发动机的性能和发动机部件的寿命。冷却系统使发动机工作保持在有效的温度。不管驾驶条件如何,发动机系统被设计成既能防止过热又能防止过冷。燃料供给系统燃料供给系统的主要功能是以一定的比例和压力给化油器或喷射系统提供燃料,并在汽车遇到的所有情况下,满足发动机对负载、速度和坡度的需要。燃料系统也必须为汽车行驶几英里保留足够的燃料。身提供了一个安装框架。车架用方刚或盒形钢铁制造,有足够的强度支撑车身和其他构件的重量。汽车车架通常由一些焊接或铆接在一起的零件构成,从而形成最后的形状。发动机和橡胶垫被圈定在车架上。橡胶垫可以吸收振动,也可以提供这些振动的阻尼减轻乘客由于振动产生的不适。悬架系统悬架系统的功能是吸收由于路面不平使车轮上下运动所产生的振动。弹性元件、连接装置和减振器组成了汽车的悬架系统。悬架系统有两种类型:(1)刚性悬架系统(2)独立悬架系统在刚性悬架系统中,弹簧被系在刚性横梁上,这种系统主要被用在商用车辆的前轴和所有类型车辆的车轴上。独立悬架系统没有一根坚硬的轴。每个车架可以自由做垂直运动而相对应的另一侧车轮没有任何反应。独立悬架系统主要用在小汽车上。传动系统传动系把发动机产生的能量传递给车轮。它包括离台器(汽车上用手动变速器)、传动系(一系列的齿轮,把由发动机产生的转矩增强.推动汽车)、驱动轴、差速器和后挢。离合器离合器用于手动变速的传动系统。用它暂时把发动机和车轮之间的动力传递分开。当换档或停车时,把传动系和发动机的连接断开是很必要的。变速籍变速箱的主要功能是通过发动机把各种必需的扭矩提供给车轮,这是通过改变发动机输出轴和驱动轴两者之阃的传动比来实现的。驱动轴驱动轴或叫推动轴与齿轮箱和差动器相连。驱动轴通常在末端具有万向节。差速器差速器的功能是把来自传动轴的能量分给后轿。当汽车转弯或掉沟时,它允许后轮以不同的逮度驱动。车轿车桥是指用来安装车轮的轴,通过这些车桥向车轮提供必需的驱动力。 车轮车轮支承着整辆车.并产生牵引力来驱动汽车。车轮也用于减速和停车。转向系统转向系统是用来改变汽车方向的,在任何转向机构中最主要的就是转向精确且容易控制,同时前轮在转向后又能自动回正。一个齿轮机构,通常认为是转向齿轮,在这个系统内用来增强由驾驶员提供的转向力,这个系统使得汽车转向非常容易,驾驶员不用费报大的力。不仅仅是在弯曲的公路上需要汽车转向,在交通拥挤的路上也需要巧妙地控制。转向系统使得汽车可以被控制向左或者向右转向。制动系统制动用来使车辆放慢速度或者停车。制动系统可以是机械制动或者液压制动。现在用的制动系统95%都是液压型的。所有的制动系统都包含两种元件,一种是旋转零件,另一种是固定零件,有各种各样方法使得这两个元件相接触而使车辆减速。制动系统的主要组成部分:制动踏扳、主制动缸、车轮制动、制动鼓、制动管路、制动蹄、制动装备和联动装置。随着汽车负载和车速的增大,目前制动系统的重要性也在增大,并且现在人们更喜欢助力制动。助力制动利用真空和空气压力来提供更好的制动力。

物流管理系统毕业论文外文翻译

Fundamentals of Logistics Management European ed 责任者: Lisa M. Ellram, David Grant, James R. Stock, Douglas M. Lambert 出版社: McGraw Hill Higher 出版日期: 书号: ISBN 0077108949 定价: 元 索取号: F252/G761 内容简介:Fundamentals of Logistics Management" (European edition) offers students a fresh perspective on the evolving factors that make logistics critical for business success. With a marketing approach to logistics that prioritizes customer satisfaction, the text includes all the relevant theory and uses case studies from a variety of industries to illustrate effective logistics strategies. The book covers global logistics, while also focusing on logistics issues unique to Europe. Core logistics concepts are introduced in an accessible and practical format, making this an essential text for anyone studying logistics for the first time. 目录:Preface xi Author biography xiii Guided tour xiv Acknowledgements xvii Logistics and supply chain management 1 (33) Definition of logistics management 3 (1) Development of logistics 3 (3) Systems approach/integration 6 (1) The role of logistics in the economy 7 (1) The role of logistics in the organization 8 (3) Total cost concept 11 (1) Channels of distribution 12 (1) Why do channels of distribution develop? 12 (1) Structure and operations of channels of distribution 13 (1) Logistics and supply chain management 14 (3) Key logistics activities 17 (2) The relationship of logistics activities to logistics costs 19 (2) Issues in logistics 21 (9) The Logistics Challenge: Public Sector Logistics 30 (4) Customer service 34 (33) Customer service defined 35 (7) How to establish a customer service strategy 42 (13) Developing and reporting customer service standards 55 (1) Impediments to an effective customer service strategy 56 (2) Global customer service issues 58 (1) Improving customer service performance 59 (3) The Logistics Challenge: Online Grocery Shopping Fulfilment 62 (5) Logistics information systems and technology 67 (26) Customer order cycle 69 (5) Advanced order-processing systems 74 (1) Inside sales/telemarketing 75 (1) Electronic data interchange 75 (4) Integrating order processing and a company's logistics management information system 79 (5) Financial considerations 84 (1) Using logistics information systems to support time-based competition 84 (2) Decision support systems 86 (1) Artificial intelligence and expert systems 87 (1) Database management 88 (2) The Logistics Challenge: Eve of Destruction 90 (3) Purchasing and procurement 93 (33) The role of purchasing in the supply chain 94 (1) Purchasing activities 95 (16) Purchasing research and planning 111 (1) Purchasing cost management 111 (5) E-procurement 116 (1) Managing supplier relationships 117 (6) The Logistics Challenge: Paperless Purchasing 123 (3) Inventory concepts and management 126 (46) Basic inventory concepts 128 (7) Basic inventory management 135 (5) Financial aspects of inventory strategy 140 (2) Inventory carrying costs 142 (8) The impact of inventory turnover on inventory carrying costs 150 (2) Symptoms of poor inventory management 152 (1) Improving inventory management 153 (5) Impact of an inventory reduction on corporate profit performance 158 (5) Appendices 163 (9) 5A: Inventory management under uncertainty 163 (1) 5B: Calculating safety stock requirements 164 (6) 5C: Derivation of economic order quantity 170 (2) Materials management 172 (26) Scope of materials management 174 (5) Forecasting 179 (1) Total quality management 180 (3) Administration and control of materials flow 183 (10) The logistics/manufacturing interface 193 (2) The Logistics Challenge: Materials Management of Spare Parts 195 (3) Transportation 198 (30) Time and place utility 200 (2) Carrier characteristics and services 202 (9) Global issues 211 (1) Regulatory issues 212 (1) Carrier pricing and related issues 213 (3) Logistics and traffic management 216 (8) The Logistics Challenge: EU Enlargement 224 (4) Warehousing 228 (32) The nature and importance of warehousing 230 (4) Types of warehousing 234 (2) Warehousing operations: three functions 236 (3) Decision criteria for warehousing types 239 (3) Facility development 242 (9) Warehouse productivity measurement 251 (2) Improving warehouse productivity 253 (1) Financial dimensions of warehousing 254 (2) The Logistics Challenge: Home Delivery Fulfilment of Online Groceries 256 (4) Materials handling, packaging and reverse logistics 260 (28) Materials handling equipment 261 (14) Warehousing in a just-in-time environment 275 (1) Computer technology, information and warehouse management 275 (2) Packaging 277 (4) Reverse logistics 281 (4) The Logistics Challenge: Delivering the News on Time 285 (3) Organizing for effective logistics 288 (27) The importance of an effective logistics organization 290 (3) Types of logistics organizational structure 293 (8) Decision-making strategies in organizing for logistics 301 (11) The Logistics Challenge: Workforce Motivation 312 (3) Logistics financial performance 315 (32) The importance of accurate cost data 316 (1) Total cost analysis 317 (3) Limitations of current profitability reports 320 (1) Solving the problem of insufficient cost data 321 (20) Cost justification of logistics system changes 341 (2) The Logistics Challenge: Gearing up for Lorry Road User Challenge 343 (4) Global logistics 347 (37) International distribution channel strategies 350 (4) Managing global logistics 354 (9) Management of the export shipment 363 (5) Logistics characteristics of global markets 368 (13) The Logistics Challenge: The Blame Game 381 (3) Logistics strategy 384 (31) What are strategy and strategic planning? 385 (1) The hierarchy of planning 386 (1) Linking logistics strategy with corporate strategy 387 (2) The organizational planning process 389 (4) The strategic logistics plan 393 (8) Future challenges and critical issues in the strategic planning process 401 (9) Logistics as a source of distinctive competitive advantage 410 (2) The Logistics Challenge: An Un-merry Christmas 412 (3) Glossary 415 (11) Index 426

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Car partsEngine The engine is a power plant, which provides power to drive the automobile. In most automobile engines,the explosive power of the mixture of air and gasoline drives the pistons.The pistons turn a crankshaft to which they are attached The rotating force of the crankshaft makes the automobile’s wheels turn.Some automobiles are powered by another kind of engine,known as the rotary valve,rotating combustion engine or Wankel engine The rotary valve engine also draws in a mixture of air and fuel, which is then compressed and burnt.A motor revolving in an elliptical chamber is connected to a shaft,Which finally drives the rear wheels.In most automobiles.the engine is mounted at the front end of the car,with the clutch and gearbox immediately behind it;the engine, clutch and gearbox are assembled into a single unit A number of systems are necessary to make an engine work . A lubrication system is neededto reduce friction and prevent engine wear. A cooling system is required to keep the engine’s temperature within safe limits .The engine must be provided with the correct amount of air and fuel by a fuel system. The mixture of air and fuel must be ignited inside the cylinder at just the right time by an ignition system.Finally, an electrical system is required to operate the cranking motor that starts the engine and to provide electrical energy to power engine accessoriesLubrication System An engine has many moving parts which eventually develop wear,as they move against each other.The engine circulates oil between these moving parts to prevent the metal-to-metal contact that results in wear. Parts that are oiled can move more easily with less friction and hence power loss due to friction is minimized.The secondary function of lubricant is to act as a coolant and also as a sealing medium to prevent leakages.Finally,a film of lubricant on the cylinder walls helps the tings in sealing and thus improves the engine’s compressions.Cooling System Due to the combustion of fuel with air inside the cylinder,the temperature of the engine parts increases.This increase of temperature directly affects the engine performance and the life of the engine parts.The cooling system keeps the engine operating at the efficient temperature.Whatever the driving conditions, the system is designed to prevent both overheating and overcooling.Fuel System The main function of the fuel supply system is to provide fuel to the carburetor or injection system at a rate and pressure sufficient to meet engine demands under all conditions of load,speed and gradients encountered by the vehicle.The fuel system must also have enough reserve fuel for several miles of vehicle operation.Ignition System The purpose of the ignition system is to provide assistance for the combustion of fuel either by a high voltage spark or self-ignition in each of the engine’s cylinder at the right time so that the air-fuel mixture can burn completely. The fuel supplied to the combustion chamber must be ignited to deliver power.In a spark—ignition engine an electric spark is used for this purpose.The compression—ignition engine does not require a separate ignition system because the ignition is affected by compression of the mixture to a high pressure. Electrical System The engine’s electrical system provides energy to operate a starting motor and to power all the accessories.The main components of the electrical system are a battery,an alternator, a starting motor, ignition coil and heater.Frame The frame provides a foundation for the engine and the body of the vehicle . The flame is constructed from square or box-shaped steel members strong enough to support the weight of the body and other components. The automobile frame is usually made up of a number of members welded or riveted together to give the final shape.The engine is mounted on the frame with rubber pads which absorb vibrations and also provide damping of these vibrations.Absorption and damping of vibrations protects passengers from discomfort caused by shocks. The frame is supported on wheel axles by means of springs.This whole assembly is calledthe chassis. Suspension System The function of the suspension system is to absorb vibrations due to the up and down motion of wheels.caused by the irregularities in the road surface . The springs, connecting linkages.and shock absorber comprise the suspension system of a vehicle.The suspension system is of two types: (1)Rigid system(2)Independent systemIn the rigid system, the road springs are attached to a rigid beam axle. It is mostly used in the front axle of commercial vehicles and in the car axle of all types of independent system does not have a rigid axle. Each wheel is free to move vertically without any reaction on its mating wheel. The independent system is mostly used in small cars Power TrainThe power train carries the power that the engine produces to the car wheels. It consists of the clutch (on cars with a manual transmission), transmission (a system of gears that increases the turning effort of the engine to move the automobile ),drive shaft, differential and rear clutch is required with the manual transmission system to temporarily disconnect the engine from wheels. Such disengagement of the power train from the engine is essential while changing the gear ratio or while stopping the main function of the transmission is to provide the necessary variation to the torque applied by the engine to the wheels. This is achieved by changing the gearing ratio between the engine output shaft and the drive ShaftThe drive shaft or propeller connects the gearbox and the differential unit. The drive shaft has universal joints at its ends.DifferentialThe function of the differential is to split the power received from the propeller shaft to the rear axle shaft. It allows the rear wheels to be driven at different speeds when the vehicle takes a bend or falls into a ditch. AxlesAxles are the shafts on which road wheels are mounted. The road wheels are provided with the required drive through these axles.WheelThe automobile wheels take the load of the vehicle and also produce tractive force to move the vehicle. The wheels are also used for retardation and for stopping the SystemThe steering system is used for changing the direction of the vehicle .The major requirements in any steering mechanism are that it should be precise and easy to handle, and that the front wheels should have a tendency to return to the straight-ahead position after a turn. A gear mechanism, which is known as steering gear, is used in this system to increase the steering effort provided by the driver. This system makes the vehicle steering very easy as the driver does not have to put in much effort.Vehicle steering is not only required on a curved road but also while maneuvering on the busy traffic roads.The steering system allows the vehicle to be guided i.e.to be turned left or right. Braking SystemBrakes are required for slowing down or stopping a moving vehicle.The braking system may be operated mechanically or hydraulically. 95 percent of the braking systems in use today are of the hydraulic brake consist of two members.one rotating and the other stationary.There are various means by which the two member call be brought in contact,thus reducing the speed of the major components of the braking system are:brake pedal, master cylinder, wheel Cylinder, brake pipe,brake shoes.brake packing plant and linkages.As the load on the vehicle and the vehicle speed has increased according to recent trends.in modem days, the importance of the braking system has also increased and power brakes are now being preferred.Power brakes utilize vacuum and air pressure to provide most of the brake————applying effort.汽车部件发动机发动机是一种动力机械设备.它为汽车提供动力。在大部分汽车发动机中.空气和汽油的混合气体产生的爆炸性能量驱动活动活塞运动。活塞使它们所连接的曲轴转动。曲轴的转动力量使汽车的车轮转动。一些汽车是由另外一种发动机提供动力的,这种发动机被认为是旋转气门、旋转燃烧或汪克尔发动机。转子发动机也是吸入空气和燃料的混合气,混合气被压缩和燃烧•在一个椭圆形的室内旋转的发动机连接着一个轴,这个轴将最终驱动后面的车轮。大部分汽车中,发动机是架在汽车的前面末端的,离台器和变速箱在它后面,发动帆、离台器和变速箱被装配成一个整体。发动机工作时有很多系统都是必要的。润滑系统可以减少摩擦并减轻发动机磨损。冷却系统被用来保持发动机的温度在安全范围内。发动机必须有燃油系统保证适当数量的空气和燃料供给。空气和燃油混合物必须由点火系统在适当的时间在气缸内被点燃。最后,电子系统被用来控制启动发动机用的电动机和为发动机附件提供电能。润滑系统发动机有许多最终会被磨损的运动部件,因为它们是相对运动的。发动机使润滑油在这些运动的部件间循环,以避免因金属与金属之间的接触而导致磨损。被润滑过的部件能够因为摩擦减少而容易运动,因摩擦导致的能量损失是最小的。润滑油的第二个功能是作为冷却液和防止泄露。最后,气缸壁上的润滑油薄膜有助于活塞环密封并因此提高发动机的压缩性。冷却系统 由于燃料与空气在气缸内燃烧,从而使发动机部件温度升高。温度升高直接影响发动机的性能和发动机部件的寿命。冷却系统使发动机工作保持在有效的温度。不管驾驶条件如何,发动机系统被设计成既能防止过热又能防止过冷。燃料供给系统燃料供给系统的主要功能是以一定的比例和压力给化油器或喷射系统提供燃料,并在汽车遇到的所有情况下,满足发动机对负载、速度和坡度的需要。燃料系统也必须为汽车行驶几英里保留足够的燃料。点火系统点火系统的作用是在适当的时间使燃料燃烧,不管是高压电火花还是在每个发动机气缸中的自燃,以便于气体混合物的完全燃烧。提供给燃料室的燃料必须被点燃以提供能量。在一个火花点火发动机中,电火花就是用于这个目的。压缩点火发动机不需要一个独立的点火系统,因为点火会受混合气压缩压力的影响。电气系统发动机的电气系统提供能量给起动电动机并给所有附件提供电能。电气系统的主要构件是蓄电池、交流发电机、起动电动机、点火线圈和加热器。车架车架为汽车发动机和车身提供了一个安装框架。车架用方刚或盒形钢铁制造,有足够的强度支撑车身和其他构件的重量。汽车车架通常由一些焊接或铆接在一起的零件构成,从而形成最后的形状。发动机和橡胶垫被圈定在车架上。橡胶垫可以吸收振动,也可以提供这些振动的阻尼减轻乘客由于振动产生的不适。悬架系统悬架系统的功能是吸收由于路面不平使车轮上下运动所产生的振动。弹性元件、连接装置和减振器组成了汽车的悬架系统。悬架系统有两种类型:(1)刚性悬架系统(2)独立悬架系统在刚性悬架系统中,弹簧被系在刚性横梁上,这种系统主要被用在商用车辆的前轴和所有类型车辆的车轴上。独立悬架系统没有一根坚硬的轴。每个车架可以自由做垂直运动而相对应的另一侧车轮没有任何反应。独立悬架系统主要用在小汽车上。传动系统传动系把发动机产生的能量传递给车轮。它包括离台器(汽车上用手动变速器)、传动系(一系列的齿轮,把由发动机产生的转矩增强.推动汽车)、驱动轴、差速器和后挢。离合器离合器用于手动变速的传动系统。用它暂时把发动机和车轮之间的动力传递分开。当换档或停车时,把传动系和发动机的连接断开是很必要的。变速籍变速箱的主要功能是通过发动机把各种必需的扭矩提供给车轮,这是通过改变发动机输出轴和驱动轴两者之阃的传动比来实现的。驱动轴驱动轴或叫推动轴与齿轮箱和差动器相连。驱动轴通常在末端具有万向节。差速器差速器的功能是把来自传动轴的能量分给后轿。当汽车转弯或掉沟时,它允许后轮以不同的逮度驱动。车轿车桥是指用来安装车轮的轴,通过这些车桥向车轮提供必需的驱动力。 车轮车轮支承着整辆车.并产生牵引力来驱动汽车。车轮也用于减速和停车。转向系统转向系统是用来改变汽车方向的,在任何转向机构中最主要的就是转向精确且容易控制,同时前轮在转向后又能自动回正。一个齿轮机构,通常认为是转向齿轮,在这个系统内用来增强由驾驶员提供的转向力,这个系统使得汽车转向非常容易,驾驶员不用费报大的力。不仅仅是在弯曲的公路上需要汽车转向,在交通拥挤的路上也需要巧妙地控制。转向系统使得汽车可以被控制向左或者向右转向。制动系统制动用来使车辆放慢速度或者停车。制动系统可以是机械制动或者液压制动。现在用的制动系统95%都是液压型的。所有的制动系统都包含两种元件,一种是旋转零件,另一种是固定零件,有各种各样方法使得这两个元件相接触而使车辆减速。制动系统的主要组成部分:制动踏扳、主制动缸、车轮制动、制动鼓、制动管路、制动蹄、制动装备和联动装置。随着汽车负载和车速的增大,目前制动系统的重要性也在增大,并且现在人们更喜欢助力制动。助力制动利用真空和空气压力来提供更好的制动力。

On-Demand Transportation has become a mandatory capability for today's successful 3PL providers in offering client specific solutions to supply chain needs.

绩效管理毕业论文外文翻译

你好专业代做毕业论文团队合作多年经验范例多多质量保证诚信可靠需要的话加团队名字沟通

标点符号问题或正文结果与图片结果不符合等笔误问题,这一种我们只需要在自己的文章中核实后进行改正即可;北京译顶科技做的不错,可以联系他们一下若是还有不明白可以统一去知道了解下

Corporate Performance Management Balanced Scorecard in use

毕业论文外文翻译:将外文参考文献翻译成中文版本。

翻译要求:

1、选定外文文献后先给指导老师看,得到老师的确认通过后方可翻译。

2、选择外文翻译时一定选择外国作者写的文章,可从学校中知网或者外文数据库下载。

3、外文翻译字数要求3000字以上,从外文文章起始处开始翻译,不允许从文章中间部分开始翻译,翻译必须结束于文章的一个大段落。

参考文献是在学术研究过程中,对某一著作或论文的整体的参考或借鉴。征引过的文献在注释中已注明,不再出现于文后参考文献中。外文参考文献就是指论文是引用的文献原文是国外的,并非中国的。

原文就是指原作品,原件,即作者所写作品所用的语言。如莎士比亚的《罗密欧与朱丽叶》原文是英语。

译文就是翻译过来的文字,如在中国也可以找到莎士比亚《罗密欧与朱丽叶》的中文版本,这个中文版本就称为译文。

主要标准

翻译是语际交流过程中沟通不同语言的桥梁。一般来说,翻译的标准主要有两条:忠实和通顺。

忠实

是指忠实于原文所要传递的信息,也就是说,把原文的信息完整并且准确地表达出来,使译文读者得到的信息与原文读者得到的信息大致相同。

通顺

是指译文规范、明白易懂,没有文理不通、结构混乱、逻辑不清的现象。

生物毕业论文外文翻译

毕业论文外文翻译是在网上找到一篇与你论文主旨相关的英文文章,然后自己翻译过来,篇幅必须长一点,因为一般毕业设计都要有字数限制。

本科毕业设计(论文)外文翻译基本规范:

一、要求

1、与毕业论文分开单独成文。

2、两篇文献。

二、基本格式

1、文献应以英、美等国家公开发表的文献为主(Journals from English speaking countries)。

2、毕业论文翻译是相对独立的,其中应该包括题目、作者(可以不翻译)、译文的出处(杂志的名称)(5号宋体、写在文稿左上角)、关键词、摘要、前言、正文、总结等几个部分。

3、文献翻译的字体、字号、序号等应与毕业论文格式要求完全一致。

4、文中所有的图表、致谢及参考文献均可以略去,但在文献翻译的末页标注:图表、致谢及参考文献已略去(见原文)。(空一行,字体同正文)

5、原文中出现的专用名词及人名、地名、参考文献可不翻译,并同原文一样在正文中标明出处。

三、毕业论文(设计)外文翻译的内容要求

外文翻译内容必须与所选课题相关,外文原文不少于6000个印刷符号。译文末尾要用外文注明外文原文出处。

原文出处:期刊类文献书写方法:[序号]作者(不超过3人,多者用等或et al表示).题(篇)名[J].刊名(版本),出版年,卷次(期次):起止页次。

原文出处:图书类文献书写方法:[序号]作者.书名[M].版本.出版地:出版者,出版年.起止页次。

原文出处:论文集类文献书写方法:[序号]作者.篇名[A].编著者.论文集名[C]. 出版地:出版者,出版年.起止页次。

要求有外文原文复印件。

扩展资料:

文献翻译要求

1、翻译要注重专业、准确

文献翻译涵盖许许多多的学科,每一学科都有自己的专业术语。比如,从事专利文献翻译的译者必须对相关专业术语有着深入的了解和清楚的把握,这样才能用专业、准确、规范的语言翻译出来。

2、翻译要注重知识更新

文献翻译涉及到各种学科,这些学科的发展是与时俱进的。因此,译员也要与时俱进,随时掌握最新的知识,这样才能更好地胜任翻译任务。

3、翻译要注重本地化

无论是将国外的文献翻译进来,还是将国内的文献介绍出去,翻译时都必须注意语言的本地化,符合目标语言的习惯。

4、翻译要注重语言严谨、流畅

文献翻译一方面讲究语言的严谨科学,逻辑的连贯严密,另一方面它也注重文字尽可能的优美流畅。因此,这类翻译对译者的目标语言使用能力是一种挑战。

参考资料:百度百科-文献翻译

毕业论文外文翻译:将外文参考文献翻译成中文版本。

翻译要求:

1、选定外文文献后先给指导老师看,得到老师的确认通过后方可翻译。

2、选择外文翻译时一定选择外国作者写的文章,可从学校中知网或者外文数据库下载。

3、外文翻译字数要求3000字以上,从外文文章起始处开始翻译,不允许从文章中间部分开始翻译,翻译必须结束于文章的一个大段落。

外文翻译需要注意的问题

1、外文文献的出处不要翻译成中文,且写在中文译文的右上角(不是放在页眉处);会议要求:名称、地点、年份、卷(期),等 。

2、作者姓名以及作者的工作单位也不用必须翻译。

3、abstract翻译成“摘要”,不要翻译成“文章摘要”等其他词语。

4、Key words翻译成“关键词” 。

5、introduction 翻译成“引言”(不是导言)。

科研工作的日常就是大量阅读外文文献,做研究的前提就是要先了解国际前沿,既为自己的研究论证,也积累学科相关知识。但有时候,面对海量的文献信息往往会感觉无从下手,有时候我也会找翻译公司,比如北京译顶科技。

毕业论文外文翻译:将外文参考文献翻译成中文版本。

翻译要求:

1、选定外文文献后先给指导老师看,得到老师的确认通过后方可翻译。

2、选择外文翻译时一定选择外国作者写的文章,可从学校中知网或者外文数据库下载。

3、外文翻译字数要求3000字以上,从外文文章起始处开始翻译,不允许从文章中间部分开始翻译,翻译必须结束于文章的一个大段落。

参考文献是在学术研究过程中,对某一著作或论文的整体的参考或借鉴.征引过的文献在注释中已注明,不再出现于文后参考文献中。外文参考文献就是指论文是引用的文献原文是国外的,并非中国的。

原文就是指原作品,原件,即作者所写作品所用的语言。如莎士比亚的《罗密欧与朱丽叶》原文是英语。 译文就是翻译过来的文字,如在中国也可以找到莎士比亚《罗密欧与朱丽叶》的中文版本,这个中文版本就称为译文 。

扩展资料:

外文翻译需要注意的问题

1、外文文献的出处不要翻译成中文,且写在中文译文的右上角(不是放在页眉处);会议要求:名称、地点、年份、卷(期),等 。

2、作者姓名以及作者的工作单位也不用必须翻译。

3、abstract翻译成“摘要”,不要翻译成“文章摘要”等其他词语。

4、Key words翻译成“关键词” 。

5、introduction 翻译成“引言”(不是导言)。

6、各节的标号I、II等可以直接使用,不要再翻译成“第一部分”“第二部分”,等。

7、注意排版格式,都是单排版,行距,字号小4号,等(按照格式要求)。

8、里面的图可以拷贝粘贴,但要将图标、横纵指标的英文标注翻译成中文。

9、里面的公式、表不可以拷贝粘贴,要自己重新录入、重新画表格。

土地流转毕业论文外文翻译

对应的英语:Rural land transferring.

推荐到OA图书馆搜索。输入英文关键词即可。

毕业论文外文翻译是在网上找到一篇与你论文主旨相关的英文文章,然后自己翻译过来,篇幅必须长一点,因为一般毕业设计都要有字数限制。

本科毕业设计(论文)外文翻译基本规范:

一、要求

1、与毕业论文分开单独成文。

2、两篇文献。

二、基本格式

1、文献应以英、美等国家公开发表的文献为主(Journals from English speaking countries)。

2、毕业论文翻译是相对独立的,其中应该包括题目、作者(可以不翻译)、译文的出处(杂志的名称)(5号宋体、写在文稿左上角)、关键词、摘要、前言、正文、总结等几个部分。

3、文献翻译的字体、字号、序号等应与毕业论文格式要求完全一致。

4、文中所有的图表、致谢及参考文献均可以略去,但在文献翻译的末页标注:图表、致谢及参考文献已略去(见原文)。(空一行,字体同正文)

5、原文中出现的专用名词及人名、地名、参考文献可不翻译,并同原文一样在正文中标明出处。

三、毕业论文(设计)外文翻译的内容要求

外文翻译内容必须与所选课题相关,外文原文不少于6000个印刷符号。译文末尾要用外文注明外文原文出处。

原文出处:期刊类文献书写方法:[序号]作者(不超过3人,多者用等或et al表示).题(篇)名[J].刊名(版本),出版年,卷次(期次):起止页次。

原文出处:图书类文献书写方法:[序号]作者.书名[M].版本.出版地:出版者,出版年.起止页次。

原文出处:论文集类文献书写方法:[序号]作者.篇名[A].编著者.论文集名[C]. 出版地:出版者,出版年.起止页次。

要求有外文原文复印件。

扩展资料:

文献翻译要求

1、翻译要注重专业、准确

文献翻译涵盖许许多多的学科,每一学科都有自己的专业术语。比如,从事专利文献翻译的译者必须对相关专业术语有着深入的了解和清楚的把握,这样才能用专业、准确、规范的语言翻译出来。

2、翻译要注重知识更新

文献翻译涉及到各种学科,这些学科的发展是与时俱进的。因此,译员也要与时俱进,随时掌握最新的知识,这样才能更好地胜任翻译任务。

3、翻译要注重本地化

无论是将国外的文献翻译进来,还是将国内的文献介绍出去,翻译时都必须注意语言的本地化,符合目标语言的习惯。

4、翻译要注重语言严谨、流畅

文献翻译一方面讲究语言的严谨科学,逻辑的连贯严密,另一方面它也注重文字尽可能的优美流畅。因此,这类翻译对译者的目标语言使用能力是一种挑战。

参考资料:百度百科-文献翻译

CS方向sci三区的一个小刊,之前也是major revision,大四毕业了才中了。。所以在我心目中MV几乎约等于AC,虽然这辈子只投过一篇文章。北京译顶科技做的不错,可以联系他们一下 统一查下。

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