下载文档原格式
介绍工业工程专业英文Industrial Engineering: A Comprehensive Introduction.Definition.Industrial engineering, also known as industrial systems engineering, is a discipline that focuses on the design, improvement, and installation of integrated systems that involve people, materials, information, equipment, and energy. It encompasses a wide range of industries,including manufacturing, healthcare, logistics, and services.Key Concepts.Productivity: The ratio of output to inputs in a system. Industrial engineers strive to improve productivity by increasing output or reducing inputs.Efficiency: The ratio of useful work performed tototal work done. Industrial engineers seek to maximize efficiency by reducing waste and optimizing resource utilization.Systems thinking: The approach of considering a system as a whole, rather than as a collection of individual components. Industrial engineers often use systems analysis techniques to identify and address system-level problems.Data analysis: The process of collecting, analyzing, and interpreting data to make informed decisions.Industrial engineers use data analysis to identify trends, patterns, and areas for improvement.Work measurement: The process of measuring the time and effort required to perform specific tasks. Industrial engineers use work measurement to set work standards, establish production quotas, and identify areas for optimization.Roles and Responsibilities.Industrial engineers play a variety of roles and responsibilities in organizations, including:Process improvement: Analyzing and improving existing processes to increase efficiency, reduce costs, and improve customer satisfaction.Layout design: Designing and optimizing the physical layout of facilities, including factories, warehouses, and offices.Production planning and control: Developing and implementing plans to control production processes, including scheduling, inventory management, and quality control.Ergonomics: Designing workplaces and equipment to optimize human performance, reduce fatigue, and prevent injuries.Supply chain management: Coordinating the flow of materials, information, and resources throughout a supplychain, including supplier selection, inventory management, and logistics.Education and Training.Industrial engineering degrees are typically offered at the undergraduate and graduate levels. Undergraduate programs typically require coursework in mathematics, statistics, physics, engineering mechanics, industrial engineering principles, and business management. Graduate programs often specialize in specific areas, such as manufacturing, logistics, or healthcare.In addition to formal education, industrial engineers often pursue professional certification through organizations such as the Institute of Industrial Engineers (IIE). Certification demonstrates a high level of knowledge and experience in the field.Career Opportunities.Industrial engineers are in high demand in a wide rangeof industries. Career opportunities include:Manufacturing engineer.Process improvement engineer.Supply chain manager.Ergonomist.Operations research analyst.Business analyst.Benefits of Industrial Engineering.Industrial engineering can provide significant benefits to organizations, including:Increased productivity: Industrial engineers help organizations improve productivity by optimizing processes, designing efficient layouts, and implementing data-drivensolutions.Reduced costs: Industrial engineers identify and eliminate waste, reduce inventory levels, and improve supply chain efficiency, leading to lower operating costs.Improved quality: Industrial engineers implement quality control measures and use data analysis to identify and address quality issues, leading to improved customer satisfaction.Enhanced safety: Industrial engineers design workplaces and equipment to minimize risks and prevent injuries, creating a safer work environment.Increased innovation: Industrial engineering methodologies can be applied to new product development, process design, and service delivery, leading to innovative solutions.Conclusion.Industrial engineering is a challenging and rewarding field that offers a wide range of career opportunities. Industrial engineers play a vital role in improving the efficiency, productivity, and safety of organizations across all industries. By applying systems thinking, data analysis, and problem-solving skills, industrial engineers can make a significant contribution to the success of their organizations.。
Professional English for Industrial EngineeringChapter1 Unit3翻译姓名:专业:工业工程班级:学号:完成日期:2015-10-31Chapter 1Unit 3 Academic Disciplines of Industrial Engineering五大主要工程学科和它们的发展在美国,有五个主要工程学科(土木、化学、电工、工业、机械),它们是早在第一次世界大战时就出现的工程分支学科。
这些进步是世界范围内发生的工业革命的一部分,并且在技术革命的开始阶段仍在发生。
随着第二次世界大战的发展导致了其他工程学科的发展,比如核工程,电子工程,航空工程,甚至是电脑工程。
太空时代导致了航空工程的发展。
最近对环境的关注使得环境工程和生态工程也得到了发展。
这些更新的工程学科经常被认为是专长学科包含“五大”学科,即土木,化学,电工,工业,和机械工程里的一种或多种。
和美国的情况不同,工业工程在中国属于第一层级管理科学和工程学科下面的第二级别的学科。
IE学科的开端学科后来演变成工业工程学科是最初在机械工程系被作为特殊课程教的。
首个工业工程的分部在1908年的宾夕法尼亚州大学和雪城大学被建立。
(在宾夕法尼亚州的项目是短期存在的,但是它在1925年又重建了)一个在普渡大学的机械工程的IE选科在1911年被建立。
一个更完整的工业工程学院项目的历史可能在资料中被找到。
在机械工程部有一个IE选科的实践是主要的模式直到第二次世界大战的结束,并且分离出来的IE部在整个上个世纪里的文理学院和综合大学里被建立。
早在第二次世界大战的时候,在工业工程方面,只有很少的毕业生水平的研究。
一旦分开的学部建立之后,学士和博士级别的项目开始出现。
现代IE的教育—分支学科今天,与过去相比,工业工程对于不同的人来说意味着不同的东西。
实际上,一个发展一个突出的现代工业工程的方法是通过获得在它的分支学科和它怎么联系到其他领域的理解。
工业工程专业英语(推荐5篇)第一篇:工业工程专业英语二Real IE Value工业工程的真正价值1、On the other hand,today‟s IE has at his or her disposal more technology and tools than the IE of 30 years ago could have ever imagined.另一方面,现在的工业工程师可以使用许多30年前的同行想都不可能想到的技术和工具。
2、If a person loses sight of the total job and starts looking at the individual pieces,it comes out a little hairy.如果一个人不能对整项工作做全面把握而只是将注意力放在个别的方面,则结果将不会令人满意。
3、Problems associated with renaming IE departments to describe their particular function may have more to do with appearance than with the actual job being performed.将工业工程部重新命名以明确描述其具体职能,其间所出现的问题与其说与实际完成的工作有关倒不如说与问题的表象有关。
4、In fact,even though ABET accredits many IE and IET programs in the United States,there remains much variance and flexibility among each of the programs.【ABET是工程与技术鉴定委员会(the Accreditation Board for Engineering and T echnology)的简写。
第一章IE中的角色工业工程是新兴的经典和新颖的将计算解决复杂和系统性的问题,在今天的高度科技世界职业之一。
,特别是在中国快速发展的经济和其作为世界制造业中心的演技,为IE浏览器的需求将增加,并不断扩大和迫切。
生产系统或服务系统,包括输入,转换和输出。
通过改造,增加值的增加,系统的效率和效益都有所提高。
转化过程中所使用的技术和管理科学以及它们的组合依靠。
管理生产系统的服务体系,是一个具有挑战性和复杂的,行为科学,计算机和信息科学,经济,以及大量的主题有关的基本原则和技术,生产和服务系统的技术。
对于IE毕业生的需求工业工程课程设计准备的学生,以满足未来中国的经济和和谐社会建设的挑战。
许多即毕业生(IES),事实上,设计和运行现代制造系统和设施。
其他选择从事服务活动,如健康,Äìcare交付,金融,物流,交通,教育,公共管理,或咨询等。
为IE毕业生的需求比较旺盛,每年增长。
事实上,对于非法入境者的需求大大超过供给。
这种需求/供给不平衡是为IE大于其他任何工程或科学学科,并预计在未来多年存在。
因此,over165大学或学院于2006年在中国开设了IE浏览器程序。
教科书的目标这本教科书的主要目的是引入系统化的理论和先进的技术和方法,工业工程,以及他们的英语表达有关科目。
教科书的另一个目的是加强和改进学生,AOS与工业工程专业英语文献的阅读和理解能力。
工程与科学怎么这两个词,Äúindustrial,Äùand,Äúengineering,Äùget相结合,形成长期,Äúindustrial工程,非盟是什么?工业工程和其他工程学科之间的关系,企业管理,社会科学?为了了解工业工程的作用,在今天,AOS经济和知识为基础的的时代,它是有利于学习,希望在IE的演变历史的发展,有许多半途而废写历史发展的工程。
《工业工程专业英语》课程教学大纲课程编号:0803701057课程名称:工业工程专业英语英文名称:Professional English for Industrial Engineering课程类型:专业任选课总学时:32 讲课学时:32 实验学时:0学分:2适用对象:工业工程专业先修课程:大学英语一、课程性质、目的和任务专业英语是工业工程专业的一门专业课,通过对本课程的学习,进一步巩固和提高英语水平,特别是提高阅读科技英语及本专业英语资料的能力。
其任务是培养学生阅读、写作科技英语等方面的能力,使其能以英语为工具顺利获取有关本专业所需要的信息。
二、教学基本要求了解专业英语的语法特点、专业英语的词汇特点及专业英语的各种文体中常用的符号、公式及其他。
掌握工业工程专业的英语文献阅读和理解,能快速阅读科技文章,迅速获取信息和中心思想。
理解专业英语翻译的基本方法。
三、教学内容及要求1.Introduction to Industrial Engineering了解工业工程的角色,工业工程毕业生的需求,学习本书的目的,掌握工业工程的定义。
了解工业工程涉及的学科,工业工程的发展。
了解美国工业工程专业在学科中的地位与中国的不同。
2.Work Study工作研究和作业测量是工业工程领域最传统的研究内容。
通过本章的学习,对工作研究和作业测量有一个全面的认识和了解。
3.Manufacturing Systems了解制造系统的含义,制造系统的各个组成部分,掌握几种典型的制造系统及成组技术、柔性制造系统、敏捷制造等先进制造系统各自应用范围及特点。
了解CAD,CAM,CAPP 等辅助制造系统在各种制造系统中的应用。
4.Production Planning and Control掌握生产计划的主要内容,体会生产计划在生产系统中的重要性,掌握生产预测、生产计划的制定、生产计划控制的各种原理及方法。
5.Logistics Engineering掌握物流工程中的基本术语。
CHARTER 2Industrial engineers are great at solving problems.工业工程师非常善于解决问题。
New technologies have improved accuracy and speed and generally have increased the IE’s ability to cover a more diverse set of interests.新技术已经提高了精确度和速度并逐渐提高了工业工程师们解决更多样问题的能力。
The problems associated with renaming IE departments to describe their particular function may have more to do with appearance than with the actual job being performed.将工业工程部重新命名,以明确描述其具体职能,期间所所出现的问题与其说与实际完成的工作有关,倒不如说与问题的表象有关。
Most IEs eventually must sell their ideas and plans to management, which often requires above-average communication skills. For many IE graduates, this is a tough challenge.许多工业工程师都必须要推销自己的想法和计划给管理部门,这常常需要较好的交流技巧.可这对于工业工程的毕业生来说是个很大的挑战.With all of these challenges facing the IE profession, there may be some who doubt the IEs’future. But if the individual IE will assume the role as a change implementer --- not a change follower --- broad opportunities are on the horizon.工业工程行业所面临的这些挑战会使一些人担心工业工程师的前途。
Chapter 7 ErgonomicsUnit 1 Introduction to ErgonomicsDefinition of ErgonomicsWhat is ergonomics (sometimes called human factors)? Most people think it is something to do with seating or with the design of car controls and instruments. It is…but it is much more! Ergonomics is the scientific discipline concerned with the understanding of interaction among humans and other element of a system, and the profession that applies theory, principles, data and methods to design in order to optimize human being activities and overall system performance. In other words, ergonomics is the application of scientific information concerning humans to the design of objects, systems and environment for human use. Ergonomics is an effective approach which puts human needs and capabilities at the focus of designing technological system. Until now, Ergonomics comes into everything which involves people, such as work systems, sports and leisure, health , safety , and so on.人体工程学的定义什么是人体工程学(有时称为人为因素)?大多数人认为这是什么与阀座或设计的汽车控制和仪器。
