Displaying all 9 results
- Conference Session
- Latest Trends and Implementations in Manufacturing Education
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Ali Ahmad, Northwestern State University
- Tagged Divisions
- Manufacturing
development i. An understanding of and a commitment to address professional and ethical responsibilities including a respect for diversity j. A knowledge of the impact of engineering technology solutions in a societal and global context k. A commitment to quality, timeliness, and continuous improvementCertification of Manufacturing (C4M) was developed by Louisiana Fast Start to provide amechanism of stackable credentials to satisfy the growing needs of manufacturers in the state5.C4M is: A certificate program that is equivalent to 12 college credit hours. Consists of courses that can be completed in one semester, with topics such as: o Introduction to Manufacturing o Tools and Equipment Used in
- Conference Session
- Green and Sustainable Manufacturing Education
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Jaby Mohammed, The Petroleum Institute, Abu Dhabi; Saed Talib Amer, The Petroleum Institute, Abu Dhabi
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
students studying the basics of engineering design. The authors inthis paper would discuss the results of the survey and recommended actions based on the survey.IntroductionHigher educational institutions have recognized and acknowledged their responsibility towardsachieving the goals of sustainability as they prepare the future engineers for the global world.Sustainability challenges all schools and universities to rethink their mission and vision torepresent themselves as the new generation school. With this in place most of the accreditingbodies have also included the ethical part of sustainability in the curriculum, which makes mostof the program to restructure and realign the curriculum, develop research programs, andredefine the student life
- Conference Session
- Innovations in Curriculum and Course Development
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Arif Sirinterlikci, Robert Morris University
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
AgreeI applied knowledge ofmathematics, science andengineering.I designed and conductedexperiments, as well as analyzedand interpreted data.I designed a system, component,or process to meet desired needswithin realistic constraintssuch as economic,environmental, social,political, ethical, health andsafety, manufacturability, andsustainability.I functioned on multi-disciplinary teams.I identified, formulated, andsolved engineering problems.I fully understood professionaland ethical responsibilities.I communicated effectively.I used the broad educationnecessary to understand theimpact of engineering solutionsin a global, economic,environmental, and societalcontext.I recognized the need for life-long learning and I can engage init.I have been aware
- Conference Session
- Best Practices and Lessons Learned in Design Projects
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Arif Sirinterlikci, Robert Morris University
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
elements to besuccessful. These have to be based on realistic constraints imposed by each team as prescribed inABET student outcome c – where students design a system, component, or process to meet desiredneeds within realistic constraints such as economic, environmental, social, political, ethical,health and safety, manufacturability, and sustainability. The open-ended construction toyprojects used in this Rapid Prototyping and Reverse Engineering course accomplishes thisstudent outcome by incorporating the realistic constraints including the ones on economic,manufacturability, safety, environmental and sustainability. In these projects, ABET studentoutcomes a, b, d, e, g, h, and k are also addressed strongly. These open-ended constructionFigure
- Conference Session
- Innovations in Curriculum and Course Development
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Mauricio Torres, Northern Kentucky University; Morteza Sadat-Hossieny, Northern Kentucky University
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
, processes and system design. These graduates will: PEO1. Attain a gainful employment in technical or leadership careers where they continue to enhance their knowledge in the Mechanical, Electronics, Industrial Controls and/or Manufacturing disciplines. PEO2. Attain an ability to work effectively in cross functional teams and communicate effectively in oral, written or visual forms. PEO3. Attain an awareness of ethical, professional, and social responsibilities in their professional lives and community services. PEO4. Attain skills necessary to engage in lifelong learning activities coupled with commitment to continuous improvement in their professional lives.Student Outcomes (ABET-ETAC Criterion
- Conference Session
- Innovations in Manufacturing Laboratories
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Yanqing Gao, Oregon Institute of Technology; Fei-Yue Wang, Chinese Academy of Sciences; Wangping Sun, Oregon Institute of Technology; Xisong Dong, Qingdao Academy of Intelligent Industries; Xiwei Liu, Chinese Academy of Sciences; Qingdao Academy of Intelligent Industries; ShuangShuang Li, Chinese Academy of Sciences
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing
generation of engineerswith ability to Conceive, Design, Implement, and Operate real-world entities by integrating acomprehensive set of personal and interpersonal skills, and process, product, and systembuilding skills with disciplinary knowledge [1-3]. Essentially, CDIO is promoting "learningby doing" and "project-based education and learning", and many experts and organizationsconsider this approach as the direction for engineering education development now and in thefuture [4-5]. For example, by taking product's life from research to utilization as its carrier,CDIO aims to enable students to study engineering through a proactive, personal, precision,and organic way, to develop student's engineering capability, professional ethics, academicand
- Conference Session
- Green and Sustainable Manufacturing Education
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Richard Y. Chiou, Drexel University; Michael G. Mauk, Drexel University; Tzu-Liang Bill Tseng, University of Texas, El Paso; Regina Ruane Ph.d., Drexel University ; Chetana R. Bayas; Abhishek Raja, Drexel University; Carlos Michael Ruiz, Drexel University
- Tagged Divisions
- Manufacturing
requirements include:1. A process based on the needs of the program's various constituencies in which the objectivesare determined and periodically evaluated (Criterion #2);2. The students in the program must attain “an ability to design a system, component, or processto meet desired needs within realistic constraints such as economic, environmental, social,political, ethical, health and safety, manufacturability, and sustainability” (Criterion #3); and3. The overall competence of the faculty may be judged by such factors as education, diversity ofbackgrounds, engineering experience, teaching experience, ability to communicate, enthusiasmfor developing more effective programs, level of scholarship, participation in professionalsocieties, and licensure
- Conference Session
- Make It!
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Mike Thomas Pitcher, University of Texas, El Paso; Pedro Arturo Espinoza, University of Texas, El Paso; Hector Erick Lugo Nevarez, University of Texas, El Paso; Hugo Gomez, University of Texas, El Paso; Randy Hazael Anaya, University of Texas, El Paso; Herminia Hemmitt, University of Texas, El Paso; Oscar Antonio Perez, University of Texas, El Paso; Peter Golding, University of Texas, El Paso; Alfonso Pruneda, University of Texas, El Paso; Sara Soto, Academic Technologies ; Erik Lopez, Academic Technologies; Gil Paquian Jr., UTEP Academic Technologies
- Tagged Divisions
- Manufacturing
field in his first year as an employee of Academic Technologies. The cooperative en- vironment in Academic Technologies has improved Erik’s ethical, professional and personal involvement during the past years.Mr. Gil Paquian Jr., UTEP Academic Technologies Gilbert Paquian has always been fascinated with how things work. During his undergraduate career pur- suing a degree in Mechanical Engineering at the University of Texas at El Paso, his project-oriented work with Academic Technologies and the completion of an internship with W. Silver Incorporated, a local steel mill, were able to satisfy his curiosity learning about the inner workings of various machines, electrical components and computer software. After
- Conference Session
- Best Practices and Lessons Learned in Design Projects
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Richard Y. Chiou, Drexel University; Irina Nicoleta Ciobanescu Husanu, Drexel University; Tzu-Liang Bill Tseng, University of Texas - El Paso
- Tagged Divisions
- Manufacturing
“(c) an ability to design asystem, component, or process to meet desired needs within realistic constraints such as economic,environmental, social, political, ethical, health and safety, manufacturability, and sustainability”and (h) “the broad education necessary to understand the impact of engineering solutions in aglobal, economic, environmental, and societal context”). The senior design project can serve as anexcellent culminating experience in the program of study when it focuses on research and designprojects that have practical value to consumers or to industry. For the Engineering Technology(ET) Department at Drexel University, the senior design course is a year-long educational journey(three quarters) that takes an idea generated by a