To improve learning effect in mechanical component design by 3D printing— Assistive device design as an example
Abstract:
The aim of mechanical component design, one of the core courses in mechanical engineering, is to teach students how to design products with both functionality and safety. This is a complex but challenging course including mechanical drawing, statics, dynamics, mechanics, and material mechanics. Due to the rapid advance in computer technology, currently utilization of computer aided technology in mechanical computer design can help students to show the product information quickly by virtual 3D design.In this study, the difference in learning effect with or without utilization of 3D printing technology in mechanical component design will be evaluated. Originally the product design is completed by class teaching, memory of students, and computer aided drawing. In this case, the learning effect of students is influenced by personal knowledge and experience, spatial difference, virtual-real situational change barrier. In order to overcome these negative effects, a series of guided courses to design small-sized assistive devices will be planned. By utilization of 3D printing technology, the spatial difference and virtual-real situational change barrier will be abolished. During the course, students initially make 3D drawings, and then adjust the size of components by 3D printing to create the final product. In the end, the learning effect will be determined by the scores of final products and the questionnaire of students.
Keywords:
3D Printing, Mechanical Component Design, Assistive Device Design, Questionnaire
pages:
263-266
Year:
2019
Published in:
2nd Eurasian Conference on Educational Innovation 2019
Full paper download:
