Development and Evaluation of a Sophomore Mechanical Engineering Design Course infused with CDIO Skills

Development and Evaluation of a Sophomore Mechanical Engineering Design Course infused with CDIO Skills

N. Ho (2006).  Development and Evaluation of a Sophomore Mechanical Engineering Design Course infused with CDIO Skills. 13.

The Mechanical Engineering Department at the California State University at Northridge has adopted the Conceive-Design-Implement-Operate (CDIO) framework as the overall guiding philosophy in reforming its undergraduate education. An important standard to achieve in this adoption is to have several design-build project experiences in the curriculum. To spearhead this effort, one of two sessions of a sophomore design course that teaches mechanical design for manufacturing was chosen as an experimental session and was redesigned to teach a project involving designing and building yoyos, along with CDIO, personal, and interpersonal skills. Student teams go through the complete product development cycle (i.e., four phases of CDIO): conceiving innovative ideas and concepts; designing and reiterating concepts of yoyos to meet  requirements; implementing the concepts and manufacturing yoyos; and operating the yoyos in the context of safety and a yoyo-trick contest at the end of the semester. Engaging in the project helps students become proficient in using Computer Aided design/Manufacturing tools and machines (e.g., SolidWorks, Esprit, Rapid Prototyping, Injection Molding, and Computer Numeric Control machines); internalize the role of key manufacturing metrics in modern manufacturing systems; and learn personal, interpersonal, and professional skills. Results obtained through self-reporting surveys and performances on a design problem given to students in both sessions show that teaching the design-build project significantly improves students’ ability to conceive and design a product and to work in a team-based environment. The improvement in the students’ learning has resulted in adopting a design build project in all future sessions of this course. A plan for integrating this course with other core design courses, and into the Department overall plan for adopting CDIO is also discussed.

2nd International CDIO Conference, Linköping University, Linköping, Sweden, 13 – 14 June 2006

Authors (New): 
Nhut Tan Ho
Pages: 
13
Affiliations: 
California State University, USA
Keywords: 
CDIO Framework
Manufacturing Processes
Design and build yoyos
CAD
Self-evaluation
Year: 
2006
Reference: 
Brodeur, D., Crawley, E., Ingemarsson, I., Malmqvist and Östlund, “International Collaboration in the Reform of Engineering Education,” in Proceedings of the 2002 American Society for Engineering Education Annual Conference & Exposition, June 16- 19, Montréal, Québec, Canada, ASEE, 2002. Available at http://www.cdio.org/papers/inter_collab.do: 
Crawley, Edward F., “Creating the CDIO Syllabus, A Universal Template for Engineering Education,” in Proceedings of the ASEE/IEEE Frontiers in Education Conference, Boston, MA, 06-09, Nov. 2002 : 
Ho, N., Caretto, L., Schwartz, S., Ryan, R., Lin, C.T., Prince, S., “Vision 2015 – Reforming Undergraduate ME Education at CSUN,” Report 2005-1, Department of Mechanical Engineering, California State University, Northridge, March 22, 2005: 
Suh, N., “Axiomatic Design: Advances and Applications,” Oxford University Press, May 2001.: 
Slocum, A., Course 2.007 Lecture Notes, Department of Mechanical Engineering, Massachusetts Institute of Technology, May 2005.: 
Kim, S., Course 2.008 Opportunity Set, Department of Mechanical Engineering, Massachusetts Institute of Technology, May 2004. : 
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