Conference Session

Manufacturing Division Technical Session - Robotics and Manufacturing

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Arif Sirinterlikci, Robert Morris University

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

Design Competition in China and included industrialmachines such as machining centers or rubbish cleaning machines.The MOSS SystemThe objective of the MOSS system is “to impart intuitive understanding of complex systems anddesign principles” according to its maker – Modular Robotics. [14][15][16] Children are exposedto “mechanical construction, basic circuitry, kinematic motion, robotics, software integration,and programming” through modular robot design and construction. [17] It is an interesting toolfor creative robot building and understanding modular robots. [14][15][16] A variety of blocksare available including the ones for power/light sources, control, and sensing (Table 1, Figure 1and 2) as well as structural MOSS blocks, power/data

Conference Session

Make It!

Collection

2015 ASEE Annual Conference & Exposition

Authors

Robyn Paul, University of Calgary; Kim Gould, Pivotal Projects

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

engineering education.Kim Gould, Pivotal Projects Kim Gould graduated from the University of Calgary Schulich School of Engineering in 2011 with a B.Sc. in Civil Engineering, specializing in Energy and the Environment. She is currently working on building construction and renovation projects at Pivotal Projects, where she works as an Associate Project Man- ager. Kim was heavily engaged in extracurricular activities during her time as an undergraduate student. She feels that her involvement in the Civil Engineering Undergraduate Society and the Solar Decathlon ”Spo’pi” project greatly enhanced her overall educational experience, and she strongly encourages current students to take advantage of similar hands-on

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

assessenergy conservation opportunities. In addition, the students demonstrate the appropriate usage ofenergy monitoring and measuring equipment commonly used by energy specialists and energyauditors. The course is taught as a lecture-practicum with an emphasis on clean energy and energyefficiency both in class and in laboratory. In particular, the key energy efficiency topics arediscussed how they can be integrated into manufacturing coursework to include sustainabilityprinciples.1. IntroductionFusing U.S. innovation on green science and clean manufacturing is an environmental necessity.There is a need to instill sustainability awareness and concepts among undergraduate students, inorder to ensure that sustainable production will be achieved in the

Conference Session

Green and Sustainable Manufacturing Practices

Collection

2018 ASEE Annual Conference & Exposition

Authors

Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.); Carlos Michael Ruiz, Drexel University (Eng. & Eng. Tech.); Benjamin G Cohen, Drexel Department of Engineering Technology; Sarah Renee Andrieux

Tagged Divisions

Manufacturing

investigations such as designing and testing of propulsion systems including design and development of pilot testing facility, mechanical instrumentation, and industrial applications of aircraft engines. Also, in the past 10 years she gained experience in teaching ME and ET courses in both quality control and quality assurance areas as well as in thermal-fluid, energy conversion and mechanical areas from various levels of instruction and addressed to a broad spectrum of students, from freshmen to seniors, from high school graduates to adult learners. She also has extended experience in curriculum development. Dr Husanu developed laboratory activities for Measurement and Instrumentation course as well as for quality control

Conference Session

Green Energy Manufacturing and Sustainable Energy Management

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Richard Chiou, Drexel University; Toshika Fegade, Drexel University; Yu-Chieh (Jamie) Wu, Drexel University ; Tzu-Liang Bill Tseng, University of Texas at El Paso; Michael G. Mauk, Drexel University; Irina Nicoleta Ciobanescu Husanu, Drexel University

Tagged Divisions

Energy Conversion and Conservation, Manufacturing

Virtual Reality for Green Energy Manufacturing Education AbstractThis paper presents the project-based learning result of green energy manufacturing integratedwith virtual reality (VR). This work provides an innovative solution for optimizing learningeffectiveness and improving educational outcomes through the development of virtual models thatcan be used and integrated into the existing renewable energy laboratory. The goal is to apply theseprototypical simulators to train undergraduate engineering students and professionals in windenergy education; and to offer experiential learning opportunities in 3D modeling, simulation, andvisualization. The students were given multiple projects

Conference Session

Additive Manufacturing Practices

Collection

2015 ASEE Annual Conference & Exposition

Authors

Marilyn Barger, FLATE: Florida Advanced Technological Education Center of Excellence; Richard Gilbert, University of South Florida; James Janisse, Fox Valley Technical College

Tagged Divisions

Manufacturing

Paper ID #13434Aligning ”making” with Manufacturing Technology EducationDr. Marilyn Barger, FLATE: Florida Advanced Technological Education Center of Excellence Dr. Marilyn Barger is the Principal Investigator and Executive Director of FLATE, the Florida Regional Center of Excellence for Advanced Technological Education, funded by the National Science Founda- tion and housed at Hillsborough Community College in Tampa, Florida since 2004. FLATE serves the state of Florida as its region and is involved in outreach and recruitment of students into technical career pathways; has produced award winning curriculum design and

Conference Session

Green and Sustainable Manufacturing Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Richard Chiou, Drexel University; Radian G Belu, Drexel University (Tech.); Tzu-Liang Bill Tseng, University of Texas, El Paso; M. Eric Carr, Drexel University; Bharadwaj Ramesh, Drexel University

Tagged Divisions

Manufacturing

Page 24.1024.1 c American Society for Engineering Education, 2014 Prototype Design of a Solar Greenhouse Incorporating Clean Energy Manufacturing Concept AbstractThis paper discusses an educational effort that incorporates green energy manufacturing conceptsfor the prototype design of a solar greenhouse in a senior design project. The goal of the seniordesign project was to provide the design of a greenhouse module integrated with renewableenergy as an initial stepping stone for the future construction of manufacturing plants in industry.The renewable energy integrator component in the project seeks to explore the technology ofrenewable and

Conference Session

Design & Development Projects and Practices

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jahangir Ansari, Virginia State University

Tagged Divisions

Manufacturing

University develop their skills for thevarious elements of the design process throughout the curriculum, culminating in their seniordesign project I and II courses during their senior year.The program offers at least six core courses in which engineering design is included. Thesecourses are: Engineering Graphics, CAD/CAM, Manufacturing Automation, Simulation, QualityControl, and Manufacturing Design Implementation. These six major courses and some othercourses distributed throughout the curriculum include elements of design that adequately definean integrated design experience for the students in the program. During their senior year,students also may gain additional design experience in their chosen ENGR/MANE electivecourses such as Special Topics

Conference Session

Manufacturing Laboratory Experience

Collection

2006 Annual Conference & Exposition

Authors

Sheng-Jen Hsieh, Texas A&M University; Landon Gray, Texas A&M University

Tagged Divisions

Manufacturing

the most ingeniousdevices ever invented to advance the field of manufacturing automation1. Thousands of PLCshave been used for such applications as monitoring security, managing energy consumption, andcontrolling machines and automatic production lines. As an essential part of manufacturingautomation, PLCs are covered in many automation and control-related courses, such asComputer-Aided Manufacturing, Computer-Integrated Manufacturing, Industrial Control, andManufacturing Automation and Robotics. Students from other disciplines are also exposed toPLC technology. Research by Frost & Sullivan indicates that the world market forprogrammable logic controller will continue to grow as units become smaller, more functional,and more able to work

Conference Session

Make It!

Collection

2017 ASEE Annual Conference & Exposition

Authors

Yalcin Ertekin, Drexel University; Michael G. Mauk, Drexel University

Tagged Divisions

Manufacturing

6% of STEM workers and Hispanics representing 7% ofSTEM workers [7].Traditional efforts to increase participation in STEM fields have been largely focused on improving themath and science curriculum through better recruitment and training of teachers with scholarships, loan-forgiveness, and higher pay. However, “not enough STEM graduates means not enough STEM teachers,regardless of incentives [8].” An alternative is to expose students to STEM fields early and induce them tochoose STEM careers. For example, 65% of scientists with advanced degrees developed their scienceinterest before middle school [9]. However, in underserved populations, it is not necessarily lack of theawareness of STEM fields but the socio-economic barriers that prevent

Conference Session

Use of Technology for Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Priya Manohar, Robert Morris University; Sushil Acharya, Robert Morris University; Peter Y Wu, Robert Morris University

Tagged Divisions

Manufacturing

. Thework was supervised by manufacturing and computer faculty and implemented in Visual C++.The paper will demonstrate this approach where the students developed process visualizationtools as part of their manufacturing engineering curriculum.2. Ingot Casting SystemProduction planning is known to be an extremely difficult task due to rapidly changing marketneeds, a high degree of complex logistics involved, and therefore the use of the right tool willmake the job easier and may result in higher efficiency and higher profits [8]. The productionplanning problem of metal ingots casting is addressed in the system presented in the presentwork. The solution strategy is based on an analysis of the bottle neck of the assembly line [9],where the melting

Conference Session

Advancing Manufacturing Education Through Outreach and Collaboration

Collection

2006 Annual Conference & Exposition

Authors

Dave Kim, Washington State University-Vancouver; Jan Jewett, Washington State University-Vancouver

Tagged Divisions

Manufacturing

Abstract This paper presents a collaborative manufacturing project between theManufacturing Engineering (MfgE) program and the Child Development program (CDP)– a preschool program – at Washington State University Vancouver. In the MfgEProgram, a two credit course named “Advanced Manufacturing Processes Lab” allowsthe students to integrate course materials from the entire MfgE curriculum into open-ended, student-designed and fabricated projects. The MfgE program assisted the CDP tofabricate a “learning center” or station that encourages children to work in a variety ofways with water. This station would allow children to investigate ways to make watermove and to observe and study the ways that water moves naturally. The students in

Conference Session

Educational Methods and Technologies

Collection

2010 Annual Conference & Exposition

Authors

John Marshall, University of Southern Maine; William Marshall, Alief Independent School District

Tagged Divisions

Manufacturing

bodily-kinesthetic intelligence”3 to name a few. Gardener views intelligence as an individual’s abilityto solve problems or create products that are valued by society. The implication for teachingand learning is that instructors need to vary the inputs and have a repertoire of strategies forfacilitating learning. The more ways we find to process material, the stronger learningbecomes. We need to recognize there’s no “one best way.”Learning is enhanced in an enriched environment. The physical environment of the classroomis certainly important (aesthetics, climate, etc.), but so too is the learning environment that wecreate to get students to use their minds well. An enriched learning environment is a settingwhere students are actively engaged in

Conference Session

Virtual Reality, Simulation, and Optimization of Manufacturing

Collection

2018 ASEE Annual Conference & Exposition

Authors

Magesh Chandramouli, Purdue University Northwest; Ge Jin, Purdue University Northwest; Justin David Heffron, Purdue University Northwest; Ismail Fidan, Tennessee Technological University; Mel Cossette, Edmonds Community College; Cheryl A. Welsch, Eastern Iowa Community College; Wayne Merrell

Tagged Divisions

Manufacturing

; ConsiderationsIdentification of VR training topics for digital manufacturing educationVR, as an instructional training tool for Digital Manufacturing presents the potentials ofpromoting student interest in the training/learning process. VR is a proven tool that can engagelearners effectively and the enhanced engagement can be attained by actively involving theparticipant or trainee in the process (Toth, Ludvico, & Morrow, 2014, Chandramouli, Zahraee, &Winer, 2014, Jin & Nakayama, 2013, Jen, Taha, & Vui, 2008). Laboratory exercises inmanufacturing curriculum are not always able to meet the demands of the advancedmanufacturing need in their conventional form with the traditional experiments. Virtuallaboratories, on the other hand, can be built to

Conference Session

Manufacturing Processes Education

Collection

2010 Annual Conference & Exposition

Authors

Joel Dillon, United States Military Academy; Harold Henderson, United States Miliary Academy; Jeffrey Butler, United States Military Academy

Tagged Divisions

Manufacturing

. The results of this assessment should be useful toany program that incorporates metal part fabrication techniques into an engineering course. Page 15.954.2 “Just as one cannot learn to drive without getting behind the wheel; or to swim without getting wet; entry into the profession of engineering, particularly in the area of design, requires far more than sitting in a lecture hall.”1IntroductionManufacturing processes are an important part of the curriculum for mechanical engineeringmajors. Industrial employers have long called for newly-graduated engineers to have bothknowledge and proficiency in manufacturing, and they

Conference Session

Development of Manufacturing Engineering Laboratories I

Collection

2012 ASEE Annual Conference & Exposition

Authors

Bradley C. Harriger, Purdue University, West Lafayette; Sergey Dubikovsky, Purdue University, West Lafayette; Ed Lugo; David Gonzales, El Camino College; Buford F. Pringle, Butler Community College; John Anderson, Oregon Institute of Technology

Tagged Divisions

Manufacturing

positive trade balance of any U.S. manufacturing industry4. Page 25.140.2As new and improved processes and materials are being integrated into aerospace manufacturingthe industry is faced with an aging workforce. The average age of a production worker is 54years based on the 2005 President’s report of findings and recommendations for the USaerospace industry5. These workers have continued to retire over the last few years as a result ofcorporate downsizing and employee reductions. These production jobs, when replaced in thecoming years, will lack the skill brought about through years of stewardship and mentorship thathave historically been linked to

Conference Session

Make It!

Collection

2017 ASEE Annual Conference & Exposition

Authors

William H. Heeter; Sheng-Jen Hsieh, Texas A&M University

Tagged Divisions

Manufacturing

&M University. He holds a joint appointment with the Department of Engineering Technology and the De- partment of Mechanical Engineering. His research interests include engineering education, cognitive task analysis, automation, robotics and control, intelligent manufacturing system design, and micro/nano manufacturing. He is also the Director of the Rockwell Automation laboratory at Texas A&M University, a state-of-the-art facility for education and research in the areas of automation, control, and automated system integration. c American Society for Engineering Education, 2017 MAKER: Smart Lighting Module for Teaching High School Science and Engineering

Conference Session

Teaching and Assessment Methodologies

Collection

2014 ASEE Annual Conference & Exposition

Authors

M. Austin Creasy, Purdue University (Statewide Technology); Nicole Otte, Central Nine Career Center

Tagged Divisions

Manufacturing

areas, manufacturingis a dominant economic activity that requires students be competent in the science, technology,engineering, mathematics (STEM) fields and typically requires a post-secondary education forsome of the better paying positions. In an effort to assist students with this challenge andeducate more students for the manufacturing work force, a partnership was formed to put asecondary STEM teacher and college faculty in the same classroom. The partnership allowedstudents to know the local post-secondary educational options related to STEM and to getcomfortable with the campus while being introduced to computer integrated manufacturing(CIM) practices. This initial class had ten students that participated and this paper will explainthe

Conference Session

Four Pillars of Manufacturing

Collection

2013 ASEE Annual Conference & Exposition

Authors

Robert L. Mott P.E., University of Dayton; Hugh Jack, Grand Valley State University

Tagged Divisions

Manufacturing

canalso be used by others to illustrate the content of the entire field of manufacturing and to helpdecide what parts of the manufacturing field are appropriate for inclusion in any givencurriculum. It is well known that graduates from many different types of academic programs findproductive careers in the manufacturing engineering function of product-producing industries.All should have at least an awareness-level comprehension of the entire field.Types of Programs Illustrated in this paperThe process of mapping curricula into the Four Pillars model is illustrated with four differenttypes of academic programs: 1. Four-year bachelor degree in manufacturing engineering (Figure 2) 2. Four-year bachelor degree in manufacturing engineering

Conference Session

Four Pillars of Manufacturing Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

Paul Nutter, Ohio Northern University

Tagged Divisions

Manufacturing

the following degrees of importance:‘Not Important’, ‘Important’, ‘Very Important’, ‘Extremely Important’, or ‘N/A’.As an example, the question “How important is knowledge of these Products Design subjects?”resulted in high ratings for ‘CAD/CAM/CAE’ and ‘Tolerance Analysis/GD&T’, and low ratingsfor ‘Marketing/Sales’ and ‘Intellectual Property Protection’.Survey ResultsA total of 106 individuals participated in the survey. The following pages provide the rankedorder of results for those deemed more important to ensure emphasis in our program, and also ofthose deemed of lesser importance as candidates for reduced emphasis in our curriculum. Thefull list of ranked topics and ratings can be found in Attachment D

Conference Session

State of Manufacturing

Collection

2013 ASEE Annual Conference & Exposition

Authors

Paul Nutter, Ohio Northern University; Robert L. Mott P.E., University of Dayton; Carl R Williams, University of Memphis; Mark J. Stratton, Society of Manufacturing Engineers

Tagged Divisions

Manufacturing

currentdemand, and faces eminent retirement of many of its technical and engineering workforce thatwill fuel future demand. In the SME “Workforce Imperative: A Manufacturing EducationStrategy” white paper, recommendations are made to ensure preparation of existing and futureworkforce. These include working together to attract students into manufacturing, articulate astandard core of manufacturing knowledge, improve manufacturing curriculum, integratemanufacturing into STEM education, develop faculty, and strategically deploy resources.This paper describes the results of an online survey that was distributed to a broad audienceincluding managers, company owners, engineers, educators and education administrators. Theobjective of the survey was to

Conference Session

Manufacturing Division Technical Session 3

Collection

2019 ASEE Annual Conference & Exposition

Authors

Daniela Faas, Franklin W. Olin College of Engineering; Emily Ferrier, Franklin W. Olin College of Engineering

Tagged Divisions

Manufacturing

Engineering Education, 2019 A Unified and Collaborative Approach to Risk Classification for Fabrication and Library SpacesAbstractThis paper describes an effort to redesign risk assessment for tools and equipment across ourcampus. Existing classification schemas for assessing tool risk and safety are often restrictiveand intimidating. The previous risk classification framework at Olin College did not address theaddition of fabrication capabilities in learning spaces outside of the original machine shop,including the library, research labs, and studio classrooms. Furthermore, the old system waslimited to manufacturing equipment located in the machine shop and did not addressnon-powered tools. As a result of these

Conference Session

Make It!

Collection

2015 ASEE Annual Conference & Exposition

Authors

Lauren Jatana Vathje , University of Calgary; Marjan Eggermont, University of Calgary; Bob Brennan, University of Calgary

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

School of Engineering, University of Calgary, Canada. She teaches graphical, written and oral communi- cation in their first Engineering Design and Communication course taught to all 650 incoming engineering students. With co-editors Tom McKeag (San Francisco) and Norbert Hoeller (Toronto) she co-founded and designs ZQ, an online journal to provide a platform to showcase the nexus of science and design using case studies, news and articles (zqjournal.org). As an instructor, she was one of the recipients of The Allan Blizzard Award, a Canadian national teaching award for collaborative projects that improve student learning in 2004. In 2005, she was one of the recipients of the American Society of Mechanical Engineers

Conference Session

Green and Sustainable Manufacturing Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Richard Chiou, Drexel University (Eng. & Eng. Tech.); Paras Mandal, University of Texas, El Paso; Eric D Smith, University of Texas, El Paso; Radian G Belu, Drexel University (Tech.); Oscar H. Salcedo, University of Texas, El Paso

Tagged Divisions

Manufacturing

)” leadershipworkshops which are used to enhance student’s professional success are introduced. Basically,two general leadership workshops and two technical leadership workshops were arranged anddelivered during the Systems Engineering Day. The paper is aimed at integrating green energyinto the manufacturing engineering curriculum and to cultivate leaders in the field amongminority and female engineering students. Successful completion of the course will lead toexcellence in green energy and advanced engineering education.Introduction and BackgroundThe United States (U.S.) is on the cusp of transformational changes in how energy is producedand used. Major investments are being made by the federal government and industry in cleanenergy technologies that will

Conference Session

Green and Sustainable Manufacturing Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Richard Chiou, Drexel University; Radian G. Belu, University of Alaska Anchorage; Oscar H. Salcedo, University of Texas, El Paso; Aditya Akundi, University of Texas, El Paso; Eric D. Smith, University of Texas, El Paso

Tagged Divisions

Manufacturing

leadership workshops were arranged and delivered during the Industrial,Manufacturing and Systems Engineering (IMSE) Day. The paper is aimed at integrating greenenergy into the manufacturing engineering curriculum and to cultivate leaders in the field amongminority and female engineering students. Successful completion of the course will lead toexcellence in green energy and advanced engineering education. Keywords: Project Based Learning, Leadership Workshop, Green Energy, Green Manufacturing, Engineering EducationINTRODUCTION & BACKGROUND Green Energy today, is not only seen as a trend in industries but also as a tool to addressmany sustainability issues along with increased educational opportunities and

Conference Session

Make It!

Collection

2016 ASEE Annual Conference & Exposition

Authors

Stephanie Hladik, University of Calgary; Emily Ann Marasco, University of Calgary

Tagged Divisions

Manufacturing

Paper ID #16262MAKER: Light-Up Star FloorMs. Stephanie Hladik, University of Calgary Stephanie Hladik is a M.Sc student in Electrical and Computer Engineering at the University of Calgary. Through her research she is exploring topics related to the integration of engineering into K-12 curricula. In particular, she is interested in bringing electrical engineering, programming, and the engineering design process into K-12 education. Aside from her research, Stephanie also participates regularly in outreach programs to promote STEM topics in classrooms and beyond.Ms. Emily Ann Marasco, University of Calgary Emily

Conference Session

Manufacturing Division Technical Session 6

Collection

2019 ASEE Annual Conference & Exposition

Authors

Nikki Larson, Western Washington University; David Frye, Western Washington University

Tagged Divisions

Manufacturing

application.Previous Course Content:Since 2012 the content of the Introduction to Composites (PCE 372) course consisted of lecturetopics, a prescribed laboratory exercise, and two projects. The lecture content covered a largevariety of topics but had its focus in room temperature materials and processes. An AdvancedComposites course was (and is) also part of the curriculum and focused more on classicallamination theory and elevated temperature materials and manufacturing process.The prerequisite for the introductory course is an introduction to polymers and processing thatmainly focused on the basics of polymer chemistry and thermoplastic materials. The goal of theintroductory composites course is to enable the students to understand the basics of

Conference Session

Sustainable Product Development and Manufacturing

Collection

2012 ASEE Annual Conference & Exposition

Authors

Guanghsu A. Chang, Minnesota State University, Mankato; William R. Peterson, WRP Associates

Tagged Divisions

Manufacturing

engineeringdisciplines and the stakeholders in the success of the product design phase. Manufacturingengineers usually play a vital role in the conceptual design phase. In order to educate the nextgeneration of manufacturing engineers, we introduced and integrated the DFA methodology intoour Manufacturing Engineering Technology (MET) curricula at Minnesota State University-Mankato (MSU). A detailed description of this model, including advantages and disadvantages,future directions and recommendations, are included in this paper.Keywords: design for assembly, active learning, product development and designIntroductionDesign for assembly (DFA) is a systematic analysis process primarily intended to simplifyproduct structure and reduce the assembly costs of a

Conference Session

Manufacturing Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Pavel Ikonomov, Western Michigan University; Alamgir A. Choudhury, Western Michigan University

Tagged Divisions

Manufacturing

NMSU (Las Cruces) and BS in mechanical engineering from BUET (Dhaka). His interest includes computer applications in curriculum, MCAE, mechanics, instrumentation & control, and fluid power. He is also a Registered Professional Engineer in the State of Ohio and affiliated with ASME, ASEE, SME and TAP. Page 22.1524.1 c American Society for Engineering Education, 2011 Three Dimensional Surface Model from Laser Scanning of Proving Ground RoadAbstract: This project goal is to creating a 3D surface model from scanning of an existing roadproving ground for