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汽车工程系专业详解
汽车工程系涵盖了多个专业领域,旨在培养具备深厚理论基础和精湛实践技能的工程技术人才,以满足汽车行业的多元化需求。以下是各专业详细介绍:
1. 车辆工程专业 : 专门研究陆上移动机械,如汽车、拖拉机等的设计、*技术。毕业生可在设计开发、车身造型、车辆电子技术、性能测试、*工艺、工装与生产管理等领域工作,也可从事交通运输和管理的车辆维修管理,以及教学和科研。
2. 汽车服务工程 : 培养具有汽车服务与经营管理能力的技术人才。学生将掌握汽车技术、运用和服务的基本理论,接受现代维修技术、营销训练。毕业生在汽车厂商售后服务、流通企业、维修服务企业、保险定损等部门发挥技术与管理作用。
3. 汽车维修工程教育 : 专为培养在汽车*、维修、管理等领域工作的工程技术人才。毕业后,毕业生可就业于汽车*、检测维修、生产管理、汽车贸易等多个领域。
4. 汽车*与装配技术 : 培养全面发展的技术应用型人才,毕业生负责汽车*、零部件加工及装配调试。
5. 汽车检测与维修技术 : 该专业注重汽车*、*、检测等技能培养,毕业生能在汽车生产、维修、*及运输公司中从事检测、维修、运行管理等工作。
6. 汽车技术服务与营销 : 培养具备汽车诊断、*与售后服务技巧的专业人才,毕业生可在汽车*厂、4S店、维修站等领域从事技术服务和管理工作。
7. 汽车整形技术 : 专门培养汽车碰撞修复与美容领域的高级技术人才,毕业生可在修理厂、公估公司、二手车市场等从事事故处理、评估及保险理赔。
8. 汽车运用技术 : 学生将掌握现代汽车技术,涵盖装配、检测、运行和维修,毕业生适合汽车*、改装、*等企业的岗位。
总的来说,汽车工程系通过多元化的专业设置,为汽车行业的不同岗位输送了大批理论扎实、技能精湛的专业人才,为行业的持续发展提供了坚实的人才支撑。
车辆工程专业的主要课程 就业方向有哪些
在高考志愿填报时,很多考生对车辆工程专业的就业方向有哪些的问题很感兴趣。下面是由本站编辑为大家整理的“车辆工程专业的主要课程 就业方向有哪些”。
车辆工程专业主要课程
主干学科:力学、车辆工程、计算机技术。
主要课程:大学英语、高等数学、机械制图、机械原理、理论力学、材料力学、机械设计、机械原理、电工与电子技术、计算机辅助设计、汽车构造、汽车理论、内燃机理论、汽车设计、汽车试验学。
车辆工程专业就业方向
本专业学生毕业后可从事与汽车工程有关的设计、*、实验、运用、研究与汽车营销,以及现代汽车企业设计及管理方面的工作。
从事行业:
毕业后主要在汽车、新能源、互联网等行业工作,大致如下:
1、汽车及零配件;
2、新能源;
3、其他行业;
4、互联网/电子商务;
5、外包服务;
6、建筑/建材/工程;
7、机械/设备/重工;
8、贸易/进出口。
从事岗位:
毕业后主要从事司机、项目经理、*等工作,大致如下:
1、行政司机;
2、商务司机;
3、驾驶员;
4、服务顾问;
5、专职司机;
6、二手车评估师;
7、项目经理;
8、*工程师。
拓展阅读:车辆工程专业培养目标
本专业培养掌握机械、电子、计算机等全面工程技术基础理论和必要专业知识与技能,了解并重视与汽车技术发展有关人文社会知识,能在企业、科研院(所)等部门,从事与车辆工程有关的产品设计开发、生产*、试验检测、应用研究、技术服务、经营*、管理等方面工作,具有较强实践能力和创新精神的高级专门人才。
车辆工程的专业介绍
主干学科:力学、车辆工程、计算机技术。
主要课程:大学英语、高等数学、机械制图、机械原理、理论力学、材料力学、机械设计、电工与电子技术、计算机辅助设计、汽车构造、汽车理论、内燃机理论、汽车设计、汽车试验学。 论文选题应来源于生产实际或具有明确的工程背景与应用价值。课题应围绕车辆的研究、开发、*、检测、试验、使用管理及与车辆生产检测有关的仪器设备的开发或车辆设计分析所用大型通用软件的开发研究等。
论文的形式可以是工程设计或研究论文。工程设计类论文可以是新产品设计与开发技术的成果,应有设计方案的比较、评估,设计计算书,经济技术效果分析等主要内容;对于车辆检测、试验等方面的内容,必须有试验方案,完整的试验数据,数据处理分析方法,结果分析。研究类论文应具有一定的理论分析内容,结合试验结果进行对比分析,证明采用该方法或手段的正确性、有效性及对工程研究的实用性等。
学位论文中所解决的问题要有一定的技术难度和足够的工作量,取得的成果要有先进性,能充分表现出作者具有综合运用所学知识解决实际问题的能力。 车 辆 工 程 ,英文名:Vehicle Engineering。
修业年限:四年
授予学位:工学学士 可从事汽车整车及零部件的设计开发、车身及造型设计、车辆电子技术应用、车辆的性能测试与试验研究、汽车*工艺、工装以及生产管理等技术工作;可在交通运输及管理等部门从事车辆维修管理工作;也可从事相关的教学及科研工作。
主要去向为整车厂(一汽、东风、上汽等),零部件厂商(大陆、延峰、联电)和汽车检测中心,应届生月薪在4000左右,整体上看处于各行业中等水平。 中国车辆工程最强相关企业
企业名称 企业性质 企业评级 中国第一汽车集团特大型中央直属企业 6★中国中车股份有限公司 特大型中央直属企业 6★东风汽车集团 特大型中央直属企业 5★长安汽车集团特大型中央直属企业下属子公司5★上海汽车集团 地方大型国有企业 5★北京汽车集团 地方大型国有企业 4★广州汽车集团 地方大型国有企业 4★ 西南交通大学 铁道部重点学科 同济大学 铁道部重点学科 兰州交通大学 铁道部重点学科 北京交通大学 铁道部重点学科 中南大学 铁道部重点学科 Vehicle Engineering
Abstract:
Vehicle Engineering is concerned with the theory, design, and manufacturing of land vehicles such as automobiles, tractors, locomotives, trucks, military vehicles and other work vehicles. The department which grants the master’s degree trains advanced engineers in the research, development, manufacture, and maintenance of equipment and instrumentation of the vehicles. Major course topics include political theory, foreign languages, engineering mathematics, vibration *ysis, computer applications, vehicle system dynamics, vehicle vibrations, noise *ysis and control, vehicle electronics, electrical-hydraulic control systems, vehicle body design, automatic tran*ission theory, vehicle drive chain system control and optimization, vehicle reliability and safety, vehicle testing and *ysis, vehicle design and optimization, drivetrain design and optimization, design and optimization of locomotives, vehicle emission measurement and control, etc.
车辆工程摘要:车辆工程是有关的理论,设计和*的陆地车辆,如汽车,拖拉机,机车,卡车,军用车辆和其他工作车辆。哪个部门授予硕士学位列车先进的科研,开发,*工程师,以及设备和仪器的车辆保养。主要课程内容包括政治理论,外语,工程数学,振动分析,计算机应用,汽车系统动力学,车辆振动,噪声分析与控制,汽车电子,电气,液压控制系统,车身设计,自动变速理论,车辆驾驶连锁系统控制与优化,车辆可靠性和安全性,车辆检测和分析,汽车设计和优化,动力系统设计和优化,设计和优化的机车,车辆废气排放测量和控制等
I. Introduction
Vehicle Engineering is an important engineering technology field, focusing on the theory, design and technology problems of mobile machines on land including automobile, tractor, locomotive vehicle, military vehicle and engineering vehicles. Widely used in modern society, the vehicle not only affects the development of the transportation industry and automobile industry which is one of the pillar industries in our country but also has a profound impact on modernization of agriculture and national defensive equipment. Vehicle Engineering ranges from original mechanics, mechanical design, material, hydrodynamics and chemistry to current mechatronics engineering, mechanical design and theory, computer, electronic technology, testing metrological technology and control technology, which are not only mutually infiltrating but also further integrating with medicine, physiology and psychology. It has developed into a comprehensive discipline including multiplicate high technologies and engineering technology fields.
导言
车辆工程是一项重要的工程技术领域,侧重于理论,对土地,包括汽车,拖拉机,机车车辆,军用车辆和工程车辆的移动设备的设计和技术等问题。在现代社会中广泛使用,不仅影响了车辆的运输行业和汽车行业,是我们国家的支柱产业之一,但也对农业和国家的防御装备现代化的发展产生深远的影响。车辆工程范围从原来的力学,机械设计,材料,流体力学和化学机电工程,机械设计及理论,计算机,电子技术,测试计量技术和控制技术,这不仅是相互渗透,也进一步与医学结合,生理学和心理学。它已经发展成为一门综合学科,包括多重的高科技和工程技术领域。
II. Program Objectives
The general objective of the specialty is to tumout high-level engineers and technicians who can work in the field of vehicle engineering including research and development, engineering design, tackling key problem and technology alteration, and spreading and applying new technology. Engineering masters in this field must have well-knit basic knowledge and systematic professional knowledge, know the actuality and development trend of this discipline, understand modern design theory of vehicle, mechanic-electronic-hydraulic incorporate technology, modern electronic technology, modern control technology, modern testing technology and necessary experimental ability, master a foreign language, and can *oothly read technological information and literature in this field.
III. Scope of the Field
According to the features of the vehicle industry, this field includes the following aspects: design and manufacturing of automobile and tractor, design and manufacturing of military vehicle, design and manufacturing of locomotive vehicle and design and manufacturing of engineering vehicle and energy power.
According to the features of the work, the scope of this field can be divided into: research and development of vehicle, manufacturing and process of vehicle, performance testing, experiment and *ysis of vehicle, use, management, protection and maintainence of vehicle, development of testing instruments and equipment related to production and testing of vehicle.
IV. Curriculum
Basic courses: scientific sociali*, dialectic of nature, foreign language, engineering mathematics (numerical method, matrix algebra, applying statistics).
Basic technical courses: vibration *ysis foundation, design of advanced language program, computer technology and application, modern testing technology and *ysis, modern design technology, structural fatigue strength *ysis.
Specialized courses: systematic dynamics of vehicle, systematic *ysis and modern design method of vehicle, yawp *ysis and control of vehicle vibration, vehicle testing technology and *ysis, electronic technology of vehicle, electronic-hydraulic control system and computer control technology of vehicle, structural *ysis and computer aided design of bodywork, automatic tran*ission theory, vehicle powertrain control and optimizing, vehicle malfunction diagnosis technology, vehicle security, panorama of vehicle industry development, vehicle power assembly, economic *ysis of vehicle technology and environmental protection.
The above courses can be chosen as degree courses and non-degree courses. Through negotiations between the training unit and home enterprise, the curriculum can be revised properly, and some selective courses will be available as well.
V. Thesis
The subject of the dissertation must be based on production practice with explicit engineering background and application value. The tentative subjects include the research, development, manufacture, testing, experiment and usage management of vehicle and the development of instruments equipment related to vehicle production and testing, or the development of large-scale universal software used for vehicle design *ysis.
The format of the dissertation may be engineering design paper or researching paper. Engineering design paper may be the fruit of new production design and development technology, including comparison and evaluation of design scheme, design computing information, economic technology effect *ysis and so on. As to vehicle testing and experiment, the paper should include experimental scheme, integrated experimental data, data processing *ysis method and result *ysis. Researching paper should include a certain theoretic *ysis content, conducting comparison *ysis connected with experimental results, proving the correctness and validity of the method used and demonstrating the practicability of engineering research.
The problems solved in dissertation should have a certain technology difficulty and enough workload. the Result achieved should be advanced, adequately representing the talent of the author who can solve actual problems and comprehensively use what he has learned.
