THE IMPORTANCE OF MANUFACTURING DRAWINGS IN THE DESIGN PROCESS: A DIDACTIC CONTRIBUTION TO ENGINEERING EDUCATION
Öz
THE IMPORTANCE OF MANUFACTURING DRAWINGS IN THE DESIGN PROCESS: A DIDACTIC CONTRIBUTION TO ENGINEERING EDUCATION
Abstract
uring the direct design or reverse engineering process of products and machinery, various geometric and manufacturing information is generated according to the phases or stages of development applied during a project in different subjects. Much of this information is not used or lost and students face various problems when generating manufacturing drawings. This article discusses the importance of manufacturing drawings during the direct design process and its implications for engineering education. To generate the design information, the concept of manufacturing primitive and a classification of the manufacturing drawings that follow the stages of direct design are applied. It is using a case study to show the process of generating and documenting the information. The importance of transmitting knowledge to the student is necessary for their academic and professional training. Using tools that are actually used in industrial practice within their processes. Improving the results of students in their subjects and in academic or professional stays. Currently, this acquired knowledge has also been important in academic exchanges because the same way of working is being implemented worldwide.
Keyword: Engineering Education, Manufacturing Drawings, Manufacturing.
Anahtar Kelimeler
Tam Metin:
PDF (English)Referanslar
A. Reyes and R. Pedroza. “Challenges of the professional training of the industrial designer in the Fourth Industrial Revolution (4RI)”. Revista Iberoamericana para la Investigación y el Desarrollo Educativo. Vol. 16, pp. 1-22, junio, 2018.
M. Casalet. “La digitalización industrial: un camino hacia la gobernanza colaborativa. Estudios de casos”, Documentos de Proyectos (LC/TS.2018/95), Santiago, Comisión Económica para América Latina y el Caribe (CEPAL), 2018.
E. Jiménez, G. Luna-Sandoval, C. Uzeta, L. García, S. Ontiveros, V. Martínez, B. Lucero, & P. Pérez. Forward design process and reverse engineering considerations. In W. Aung et al. (Eds.), iNEER special volume: Innovations 2013 – world innovations in engineering education and research (pp. 197–207). Potomac: iNEER. 2013.
G. Luna-Sandoval, E. Jiménez, L. García, S. Ontiveros, L. Reyes, V. Martínez, J. Delfín & B. Lucero. Importance of research procedure in reverse engineering for engineering education. In W. Aung et al. (Eds.), Innovations 2011: World innovations in engineering education and research (pp. 379–390). Potomac: iNNER. 2011.
K. Bharat, “Design and Development of Connecting Rod by Using Reverse Engineering” (2020). International Journal for Innovative Engineering and Management Research, Vol 09, pp. 25-28, May 2020 ,
R. Eggert. Engineering design. Upper Saddle River: Pearson Education, Inc. 2005.
E. Jiménez, M. Acosta., G. Luna-Sandoval, B. Lucero, J. Delfín, L. and Velásquez. Reverse Engineering and Straightforward Design as Tools to Improve the Teaching of Mechanical Engineering. In: Abdulwahed M., Bouras A., Veillard L. (eds), Industry Integrated Engineering and Computing Education, Springer, Cham, pp. 93-188. 2019.
E. Jiménez, V. Martínez, L. Reyes, S. Ontiveros, L. García, G. Luna-Sandoval, L. Vela, & J. Delfín. “Process design systematization for specific applications: Engineering education contribution”. Journal of Modern Education Review, 3(5), 416–426. 2013.
E. Jiménez, L. García, R. Longorio, A. Luna, G. Luna-Sandoval, V. Martínez, J. Delfín, & S. Ontiveros, S. “Development procedures for the systematic measurement of parts and components, from an analytical programs of reverse engineering perspective”. In XII international conference on engineering and technology education (pp. 37–41), March 11–14. Dili. 2012.
F. Mistree, W.F Smith, B.A. Bras, J.K. Allen, D. Uster. “Decision-Based Design: A Contemporary Paradigm for Ship Design,” Transactions of the Society of Naval Architects and Marine Engineers, 98, 1990.
D. Ullman. The mechanical design process. New York: McGraw-Hill Higher Education, Fourth Edition, 2010.
N. Lahonde, J.F. Omhover and A. Aoussat. Proposition of a Methodology for Developing a Database of Design Methods, In: Alain Bernard ed. Global Product Development Proceedings of the 20th CIRP Design Conference: Springer, 2010.
P. Gerhald, B. Wolfgang, J. Feldhusen, J. Karl, G. Karl. Engineering Design. A Systematic Approach, Londres: Springer-Verlag, Third Edition, 2007.
N. Cross. “Developments in design methodology”. John Wiley & Sons, 1984. Engineering design methods: strategies for product design: John Wiley & Sons, Fourth Edition, 2008.
A. Chakrabarti, L. Blessing. “An Anthology of Theories and Models of Design”. Springer, 2014.
A. N. Nasr, and A.K. Kamrani, A.K. Computer- Based Design and Manufacturing, An Information-based Approach. Springer-Verlag, Berlin-Heidelberg, Germany. 2007.
J.J. Cunningham and J.R. Dixon. “Designing With Features: The Origins of Features”. Proceedings of the ASME Conference on Computers in Engineering, 237. 1998.
Y. Yusof and K. Case. “STEP Compliant CAD/CAPP/CAM System for Turning Operations”. Proceedings of the World Congress on Engineering and Computer Science 2008 WCECS”, October 22 - 24, 2008, San Francisco, USA. 2008
C. Malcoim, D.C. Anderson. “Hybrid Feature Extraction for Machining Applications”. Advances in Design Automation, 2. pp. 254-271. 1993.
Madde Ölçümleri
Metrics powered by PLOS ALM
Refback'ler
- Şu halde refbacks yoktur.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Selçuk-Teknik Dergisi ISSN:1302-6178