Displaying all 6 results
- Conference Session
- Project-Based and Experiential Learning in Manufacturing
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Yalcin Ertekin, Drexel University
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing Division (MFG)
solutions to real-life/simulatedproblems using a project-based approach.1.1 IntroductionAs our courses geared towards incorporating new technological trends in supply chain management andsustainability, the capstone senior design project topics in this area also increased. The main aspectspresented are related to the integrative approach in green energy harvesting, manufacturing, andsustainability, serving as models of energy efficiency and sustainable supply chain management, with aclear assessment of student-led projects developed during past academic years and how they contributeddirectly to the development of leadership skills along with untamed creativity. These capstone projects,along with clear connections between projects and curriculum
- Conference Session
- Manufacturing Workforce Development
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Akbar M. Eslami, Elizabeth City State University; Kuldeep S. Rawat, Elizabeth City State University; Chandra Bhushan Asthana P.E., Elizabeth City State University
- Tagged Divisions
- Manufacturing Division (MFG)
materials to prototype the mechanical components of UAVs by 3D printers, and(e) create G and M codes to manufacture the parts by CNC machines if metal parts are desirablesuch as linkage and landing components.This paper explains samples of mini projects that are developed to prepare students toaccomplish the above tasks (a-e) and their ability for entry into manufacturing careers. Inaddition, the mini projects in newly developed modules and sequences will also prepare studentsfor senior capstone projects and internships.MethodologyThe initial designs of mechanical/structural components of two UAVs/drones start in ENGT 105:Computer-Aided Design (CAD) I, course, and will be completed in a Senior Capstone Project,ENGT 498, course. Two quadcopter drone
- Conference Session
- Technology Integration in Manufacturing Curriculum
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Hugh Jack P. Eng., Western Carolina University; Scott C. Rowe, Western Carolina University
- Tagged Divisions
- Manufacturing Division (MFG)
toprogramming software, without compromising the support for low and intermediate-leveleducation.The CourseThe Electrical and Computer Engineering Technology (ECET) program at Western CarolinaUniversity is focused on preparation for industry. The regional employers are typically discretepart and product producers that make extensive use of industrial control systems. Graduates ofthe schools typically go to work for aerospace, automotive, medical, and similar industries.The school receives annual feedback from external sources including an Industrial AdvisoryBoard (IAB), capstone project sponsors, alumni, and industrial partners. They all share acommon message that there is increasing demand for mechatronics knowledge that is not beingsatisfied by
- Conference Session
- Technology Integration in Manufacturing Curriculum
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Yue Zhang, Georgia Southern University; Haijun Gong; Lianjun Wu
- Tagged Divisions
- Manufacturing Division (MFG)
. Theselected pilot course to test this module is MFGE 3131 Design for Manufacturability. It will bethen introduced to capstone design courses in MFGE and other senior design courses in otherengineering majors GaSou.3) Level 3: Advanced level for senior undergraduate students and graduate students (lab projectmodule): It will be designed to provide students with hand-on experience on applying safetystandards when designing a robot system/cell. A group project will be designed within thismodule to allow students to design a robotic workcell which satisfies the requirements in theANSI/RIA R15.06-2012 Robot Safety Standard by using the Robot Simulation SoftwareRoboguide or CoppeliaSim which is free for educational purposes. Upon complement of thismodule
- Conference Session
- Manufacturing Workforce Development
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Firas Akasheh, Tuskegee University; Stephen Baker; Mandoye Ndoye, Tuskegee University; David Shannon, Auburn University; josiah e blocus, Tuskegee University; Eugene Thompson
- Tagged Topics
- Diversity
- Tagged Divisions
- Manufacturing Division (MFG)
in improved understanding and exposure to real-life product development practices. Furthermore, AM can unlock the creativity of students byenabling them to produce innovative parts with almost no restrictions on part geometricalcomplexity. Building on students’ interest in drones, Tipker et al. [3] presented freshmanengineering class basic drone electronics kit and asked them to design and build, using AM,suitable drone structure, assemble it, and fly it. In a senior capstone project, Hur et al. [4]demonstrated how students used AM to manufacture metal and plastic propellers for small-scalethrusters for underwater robots. Rios [5], 3D-printed and compared them to their CAD models toillustrate several geometric dimensioning and tolerancing
- Conference Session
- Virtual and Augmented Reality Applications in Manufacturing Education
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Amit Shashikant Jariwala, Georgia Institute of Technology; Hasanain Karim; Caroline Doughton Greiner
- Tagged Divisions
- Manufacturing Division (MFG)
-on, collaborative learning through solving real-world problems. He directs the operations of the Institute-wide Georgia Tech Capstone Design Expo, which highlights projects created by over 2000 Georgia Tech seniors graduating students on an annual basis. He serves as the faculty advisor for the student organization of over 100 student volunteers who all train, staff, and manage the operations of Georgia Tech’s Flowers Invention Studio – one of the nation’s premier volunteer student-run makerspace, open to all of the Georgia Tech community. Dr. Jariwala’s research interests are in the field of makerspaces, evidence-based design education, and advanced additive manufacturing process. During his Ph.D. studies, he was