美国留学机械工程专业_美国留学机械工程专业怎么样

美国留学机械工程专业_美国留学机械工程专业怎么样

我非常愿意为大家解答关于美国留学机械工程专业的问题。这个问题集合包含了一些复杂而有趣的问题，我将尽力给出简明扼要的答案，并提供进一步的阅读材料供大家深入研究。

文章目录列表:

1.美国stem专业有哪些美国留学移民八大热门STEM专业
2.美国留学机械工程专业怎么样
3.留学美国东北大学机械工程专业怎么样
4.美国大学机械工程专业申请要求汇总
5.美国留学机械工程专业个人陈述范文三篇

美国stem专业有哪些美国留学移民八大热门STEM专业

众所周知，在美国留学就读STEM专业的留学生们，毕业后的就业与签证申请，可能比其他专业的学生都要顺利很多，所以STEM专业的同学们，似乎没有太担心。下面我们一起来看看美国留学申请中最热门的8个STEM专业吧。

一、计算机系统工程ComputerSystemsEngineering

计算机系统工程是学习计算机软件和硬件相结合的学科，学习内容有软件工程、系统软件、数据通讯、系统设计、语言处理等等。

这个专业在目前的市场需求量较大，就业前景广阔，大部分学生都能成为计算机工程师、IT业的程序师等。

二、环境科学，环境健康工程EnvironmentalSciences&EnvironmentalHealth

Engineering

环境科学，环境健康工程涉及了较为广泛的环境科学问题，研究的内容是物理和生物化学手段改进自然环境。

所以学习科目也是十分广泛，除物理、生化等还有大气科学、地球科学、环境化学、水文学、土地资源分析等。在就业前景看来，环境咨询师、公司的资源经理、政府规划专家等都是很好的选择。

三、化工ChemicalEngineering

化学与工程两种知识的结合专业，以培养化工工程师为目标的一个专业，目前市场需求也很大，化工在全美工程类专业需求量排在第三，还是工程专业收入最高的专业之一。

四、工业工程IndustrialEngineering

工业工程专业研究的是如何将人类资源和生成资源结合使其最大限度且有效生产出产品的学科。工业工程师的目标也是通过对人员、政策、生产过程、技术的合格管理，来获得最高的生产率。

所以这个专业的市场需求很大，70%以上的毕业生能进入工业界，成为企业管理人员或工业工程师等，平均薪资也较高。

五、机械工程MechanicalEngineering

机械工程是传统的工程专业，培养学生设计、开发、测试和生产各种机械零部件和设备的能力。这个专业的学生就业市场巨大，约80%的学生毕业后进入工业界工作。

六、航空、航天工程Aerospace,AeronauticalandAstronomicalEngineering

航空、航天工程属于敏感专业，涉及航空航天器以及相关设备，如导航设备与控制，仪表、通讯设备的设计、开发、测试、生产以及相关新技术的开发等等。

航空、航天工程专业的工作市场主要集中在得克萨斯州、加利福尼亚州、华盛顿州和佛罗里达州的公司和政府部门。市场需求量中等，主要职业是航空航天设计工程师。

虽然平均薪水远远高于其他工程专业毕业生的水平，但外国学生就业受到一定限制。

七、建筑、环境设计ArchitectureandEnvironmentalDesign

建筑专业是工程和管理学的结合，培养学生将客户的设想和要求转变为具体的细节，并且通过多种环节和过程完成工作的能力。毕业后的主要职业为建筑师、企业管理人员。随着工龄与经验的增加，薪水增长较快。

八、电机、电子工程Electrical&ElectronicEngineering

电机工程在美国工程类中是最大的领域，影响着其他工程行业的发展，涉及巨大的研发经费、市场利润，市场需求量巨大，是工程类专业中需求量排名第2位的专业。

70%以上的学生毕业后在公司工作，其中的60%左右的学生从事电机电子和计算机工程师的专业工作，其他的从事管理、市场与销售、计算机编程等工作。

好了，关于这个八个专业小编已经介绍完毕，希望多选择要去美国就读stem专业的朋友们是有帮助的，希望大家可以成功读到这八个专业中的自己感兴趣的那个，祝大家留学移民顺利!

美国留学机械工程专业怎么样

在美国大学中，机械工程专业一般是工程学院下，有独立的Department，有的学校会把它和制造或是航空航天专业放在一起。和我一起来看看美国留学机械工程专业怎么样。

留学美国机械工程专业和其他基础的工程类专业一样，基本都会有MS学位，部分学校还提供ME学位。

　MS学位：通常为两年制，它更加侧重于学术研究，毕业后可以选择就业也可以选择继续攻读Ph.D学位。

　ME学位：为1-2年，是 Professional 学位，主要针对就业，更加侧重于实践。

　——主要分类：

1、能量大类，主要涉及的学科有：能量、摩擦、燃烧、流体这几大类。

　2、材料大类，主要涉及机械领域内的纳米微米材料，聚合工程，生物机械。

　3、制造，主要包括设计和制造两大方向。

　4、控制类，包括计算机辅助工程，系统与自动控制，微电子系统。

　二、美国机械工程专业申请要求和申请难度

　想申请机械工程专业，应该要有较好的数学、物理基础，且应该对机器的构造及其工作原理有兴趣，同时能乐于维修及研究开发其功能。另外，学习中会涉及很多计算和实践性实验，所以会要求学生有很好的实验仪器操作能力，并能够熟练使用计算机软件，如CAD、FEA等。

　总体来说，机械专业中申请难度如下：

　1）最难申请的方向：系统与自动控制，MEMS，计算机辅助工程

　2）其次：制造，设计

　3）较易申请的方向：纳米材料，生物机械，聚合工程

　4）最易申请的：声学，光学，摩擦，燃烧，能量，流体

留学美国东北大学机械工程专业怎么样

　美国东北大学是美国顶尖私立研究型大学，也是全美规模最大的私立大学。它的机械工程专业是美国top50的顶尖专业，下面是由我为大家整理的“留学美国东北大学机械工程专业怎么样”，仅供参考，欢迎大家阅读本文。

　 一、项目介绍

　该项目要求学生完成 32个学分 课程，可以选择以课业，项目或者论文方式结课。东北大学将严谨的 学术与体验式学习和研究 相结合，为学生应对现实世界的工程挑战做好准备。 Co-op项目 可以使学生在各种组织中获得行业经验。

　 方向：

　- Materials Science and Engineering

　-Mechanics and Design

　-Mechatronic

　-Thermofluids Engineering

　 二、课程设置

　1.机械工程数学方法 Mathematical Methods for Mechanical Engineers

　2.太阳热能工程 Solar Thermal Engineering

　3.燃料学 Fundamentals of Combustion

　4.数字控制系统 Digital Control Systems

　5.数字信号处理 Digital Signal Processing

　6.高级材料力学 Advanced Mechanics of Materials

　7.有限单元法 Finite Element Method

　8.工程项目管理 Engineering Project Management

　9.材料热力学 Thermodynamics of Materials

　10.材料加工及工艺选择 Materials Processing and Process Selection

　 三、申请条件

　 托福要求： 79分

　 雅思要求： 6.5分

　 GRE要求： optional

美国大学机械工程专业申请要求汇总

　机械工程是传统的工程专业，培养学生设计开发和制造各种机械零件和生产设备。将来有志于学习汽车工程的学生，也应选择机械工程作为基础。接下来由我为你们详细介绍美国大学机械工程专业申请要求！

美国大学机械工程专业申请要求汇总

　 一、美国机械工程专业申请要求

　1.斯坦福大学

　斯坦福大学机械工程系研究生阶段开设有以下学位项目，分别是：机械工程理学硕士项目（Master of Science degree in Mechainical Engineering，MSME）和机械工程哲学博士PhD项目。其中，MSME的课程学分为45分，是为了培养想进入机械行业工作的人才，而开设的职业导向性的项目。

　斯坦福的MS项目需要申请者具有本科学士学位并拥有工程学、物理等专业背景。申请硕士TOEFL不低于100分，建议110左右，无单项要求，不接受IELTS成绩。要求学生提交GRE成绩，但并无最低分数要求。

　2.加州大学伯克利分校

　加州大学伯克利分校工程学院机械工程系硕士项目分为MS和ME两种，开设的专业方向有：生物力学、能源科学与技术、先进控制、建模与仿真和产品设计。

　一般来说，硕士项目分带毕业论文和不带毕业论文两种：带毕业论文项目要求修读20个学分，不带毕业论文项目需修读24个学分。

　工科的申请中，UC系统中的学校Berkeley和UCLA均是具有相当大的申请难度的学校，就Berkeley来说，成功的申请者的GRE成绩多数都高于90%，TOEFL要求90分最低，建议最少100，IELTS要求7.0，需要提供GRE且数学大于90%。

　3.麻省理工大学

　MIT的机械工程硕士（MS in Mechanical Engineering）为期2年，要求申请者，拥有工程或理科专业背景，其中ME最大的方向就是力学方向，主要是流体力学、结构力学、固体力学，这都是比较传统的方向。申请美国留学，选择托普仕。然后还有MEMS微流体方向主要是偏micro nano方向的。

　从申请条件上看，依照往年录取情况，GPA建议达到3.7以上，托福最低100，雅思7.0，需提供GRE成绩，平均在325以上。大部分就读MS方向的学生毕业后均选择深造，进入Industry的也是被各大公司争抢。

　 二、美国机械工程专业 分类

　根据不同侧重点，ME专业又可以细分为以下四大类：

　能量大类，主要涉及的学科有：能量、摩擦、燃烧、流体这几大类。

　材料大类，主要涉及机械领域内的纳米微米材料，聚合工程，生物机械。

　制造类，主要包括设计和制造两大方向。

　控制类，包括计算机辅助工程，系统与自动控制，微电子系统。

美国留学机械工程专业个人陈述范文三篇

　很多学生会选择去美国留学，那么美国留学机械工程专业的个人陈述该如何下手呢?这是很多留学生比较感兴趣的话题。和一起来看看吧!下面是我整理的相关资讯，欢迎阅读。

　美国留学机械工程专业个人陈述范文三篇

　范文一

　From a very young age, I had aspirations of becoming an engineer, because I wanted to build machines that did not require direct human energy inputs to operate. I achieved this for the first time a few weeks later, designing a vehicle that carried it's energy stored in rubber-bands; it wasn't a roaring success, but the fact that it wasn't perfect only increased my desire to learn more about engineering.

　Soon afterwards, I became a serious motor sport enthusiast, and to understand the sport more, I began assisting my dad and his mechanic in the maintenance of our family cars and electricity generator. I quickly learnt and understood the function of every part of the generator and before long, my dad ran out of answers to my questions, like: 'Why do high performance engines often have up to six valves per cylinder when two would do the job?'. He therefore encouraged me to read further about engineering, and a few books later, I knew what

　I was devoting my life to.

　The more I learn about mechanical engineering, the more assured I become that a career as a mechanical engineer is suited to me. A few years ago whilst researching for a physics assignment, I discovered that most cars are 20 to 30 percent efficient at best. This statistic is unacceptable, and it had a big influence on my decision to study mechanical engineering, with my focus being engine design. In addition, learning subsequently of the rotary engine, continuously variable transmission (cvt), pneumatic and desmodromic valve

　control, hydraulics and many other interesting concepts has further trengthened my decision to study mechanical engineering, and it is my belief that I really can make a mark in the automobile industry.

　After deciding to become an engineer, I set out to find the qualities necessary for success. In the process, I read about Heinrich Maybach, Thomas Edison, Isambard Brunel, Ernst von Siemens, and a host of others. Of all the great engineers I have learnt about, the one that inspires me the most is Thomas Edison. This is because unlike all the others, he not only was talented as an engineer; he was also a brilliant businessman.

　I believe that success, as an engineer in this day and age, requires technical competence and a combination of management, leadership, communication and business skills. Leadership is something that I have naturally and my school recognised this by appointing me a senior prefect, which I believe has further improved my leadership and communication skills. In addition, I recently set up a maths club in my school where sixth-formers who are good at maths help pupils from the junior school with their study and homework. This has improved my communication and presentation skills tremendously.

　Reading Robert Kiyosaki's book, 'Rich Dad, Poor Dad', taught me the importance of having financial and business skills. To improve these skills, I volunteered at my local British Heart Foundation shop for a few months, to understand how charities make money. This turned out to be a very valuable educational experience.

　When I have time outside my curricular and club activities, I am a very enthusiastic sportsperson. My main sporting interests are football and the high jump. Presently, I am in the process of starting up a football team for the sixth-formers in my school, to improve general physical fitness and to foster a sense of belonging among the new sixth-formers in my school. I am also working towards a sports leadership award. In addition, I am involved in Greenwich council's Gifted and Talented program called 'xtrahot', and I have attended a

　number of seminars and workshops as part of the program.

　It is my hope that a degree from your university would serve as a solid base for a successful career in engineering, where hopefully, I would be involved in the development of new technology for cleaner and more efficient transportation systems.

　范文二

　An experienced engineer of security printing with China’s Central Bank, I now would like to scale higher intellectual heights by pursuing Ph. D. studies in mechanical engineering at your university. I believe that my strong background in CAD has adequately prepared me to embark on this endeavor.

　I have been working since 1999 for the People’s Bank of China, a Chinese version of the Federal Reserve, at its unique research institute of security printing, with the responsibility of designing the Chinese currency and the machinery to produce it. By engaging me in a variety of projects, the job afforded me ample exposure to cutting-edge developments in computer technologies, particularly in CAD software. I have, for example, recently redeveloped a purchased CAD (Computer Aided Design) software to make it more suitable for our own purposes. By adding our own part/subassembly to the database and make our own drawing criteria, we have achieved dramatically better efficiency.

　My job performance, which has won me professional respect from all of my colleagues, was achieved thanks to the strong background I acquired as a student in computer science. My undergraduate GPA ranked first among the 63 students of classmates in mechanical department, for which I was awarded first-class and second-class prizes many times. My graduate GPA ranked among the top 4% of the 105 students in my year, which won me the “San Hao” scholarship every year during the three years of my graduate studies.

　Unlike many other Chinese students, who are content with performing well in exams, I made a point of learning through my own hands-on experiences. In the Master’s program at the Beijing Institute of Printing, I gained an in-depth understanding of artificial intelligence, including expert system and genetic algorithm, especially in neural network. For my thesis, I programmed a multi-level BP neural network with C language to analyze my mathematical model, and applied much of my knowledge in optimization. I thus became able to program with a host of different computer languages, especially C++, with which I helped my graduate advisor to design a paper-cutting machine. To analyze the mechanism statically and dynamically, I programmed a software system to analyze and emulate it on screen. In undergraduate studies, I had often programmed with Fortran77 and the Basic language.

　Upon the completion of my Master’s studies, I easily passed the doctoral record examination in CAD/CAM of Beijing University, one f the top universities in China. But I gave up the opportunity in order to gain more practical experience in the industry. The decision proved to be right, as it guaranteed me better access to sophisticated facilities, such as state-of-the-art personal computers. With the People’s Bank of China, I have thus accumulated solid expertise in many kinds of operating and application software systems, particularly in CAD. I now have a firm grip on the latest developments in computer science in China.

　The challenges I met and the successes I achieved at the People’s Bank have not only endowed me with confidence but also fired off my desire to further improve myself. I have enjoyed high-quality and efficient production with the use of a kind of PC-based CAD software, MDT, developed by Autodesk Corporation. I now have a dream: some day, every person can design his favorite product with some sort of CAD software, and then search for an ideal factory over high-speed internet its production; and the factory will put specifications of the product, as it has received them via the high-speed internet into its CIMS, and out pops the product, as designed, at the end of the factory’s production line. It is a beautiful dream for every engineer, but many difficulties the speed of data-transfer and how to manage the product data among CAD, CAM, CAPP and CAE systems. These questions are fascinating, and I would like to come up with my own answers to them.

　To prepare myself for advanced studies in your country, I have persisted in improving my English proficiency. As demonstrated by my score of 700 (96%) in the verbal section of GRE, I now have an adequate command of English for undertaking graduate studies in your program.

　After carefully comparing the strengths of many universities, I find Mercy University particularly suited for my purpose. It has got the best combination of quality faculty, many state-of-the-art facilities, and an intriguing academic environment. Currently, China still lags significantly behind Western countries in mechanical engineering. I hope that, with a few years of graduate studies under your seasoned guidance, I will be able to return to my motherland and help bring mechanical engineering in my country to international standards.

　Although my ultimate objective is a Ph. D. degree, I am willing to do a Master’s degree if necessary. In either case, I would like to concentrate my studies in one or a combination of the following areas: CAD, CAM, CIMS, Computer graphics, Mechanical design, Mechanical manufacturing, Optimization, Artificial intelligence, and Robotics. Your favorable evaluation of my application will be highly appreciated.

今天的讨论已经涵盖了“美国留学机械工程专业”的各个方面。我希望您能够从中获得所需的信息，并利用这些知识在将来的学习和生活中取得更好的成果。如果您有任何问题或需要进一步的讨论，请随时告诉我。

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