DEVELOPING A METHODOLOGY TO PREPARE DESIGN ACCORDING TO PRODUCTION REQUIREMENT

Main Article Content

Ghassan A. AL – Kindi
Kawakib A. K. AL – Mendwi

Abstract

ليلى القره غولي, [3/2/2024 10:03 AM]
Abdel-Rahman, G. E. (1982)" Correlations Between index tests and the properties of Egyption Clay". Ms.C. Thesis, college of engineering, university of Cairo.


Al-Busoda, b. S. Z. (2009) "Evaluation and correlations Associated with liquid Limit and Plasticity index of Baghdad Cohesive Soil", The 6 Engineering Conference, Proceedings of the Conference, Civil Engineering, Volume 1.


Bowels, JE (1996)" Foundation Analysis and Design McGraw-Hill Companies.


Buringh, P. (1960)" Soil and condition in Iraq" Ministry of Agriculture, Baghdad


Das, BM. (2002) Principles of Geotechnical Engineering" Fifth edition, Wadsworth Group


Khamehchiyan, M and Iwao, Y. (1994) "Geotechnical properties of Ariake clay in Saga Plain Japan Journal of Geotechnical Engineering. No.505. V.29, PP. 11-18. December


Rahardjo, PP (2007)" In situ testing and soil properties correlations" In conjunction with International Conference on In Measurement of Soil Properties and Case Histories, Parahyangan Catholic University


USDA (2004) Correlations between soil plasticity and strength Parameters" Advanced Engineering Geology & Geotechnics.


Yilmaz, Isik (2000) "Evaluation of shear strength of of clayey soils by using their liquidity index Bull Eng Geo Env.. V. 59, P. 227-229


ليلى القره غولي, [3/2/2024 10:08 AM]
This paper aims to develop a program based on a methodology to enable the preparation of design according to production requirement. Thus, the appropriate algorithms were developed to evaluate the product design according to assembly requirements and also to assess the product design according to manufacturing requirements. The programs were applied to four case studies, two of them for Design for Assembly


(DFA) and other two were for Design for Manufacturing (DFM). The study concluded that the method gives very good results for (DFA) and results of the studied two cases showed to lower the total assembly time, as well as increases the quality of the operation by lowering the probability of error expectation. However, results of (DFM) studies cases showed that the proposed program needs more development to cover all factors affecting the manufacturing processes. The paper concluded that the suggested and developed DFA and DFM programs are a valid and beneficial approach; however, more research work is required to establish a complete and comprehensive database to match the experience of human experts in the field. Adding such database to the developed programs will increase its reliability and applicability

Article Details

How to Cite
“DEVELOPING A METHODOLOGY TO PREPARE DESIGN ACCORDING TO PRODUCTION REQUIREMENT ” (2024) Journal of Engineering, 16(04), pp. 5958–5981. doi:10.31026/j.eng.2010.04.19.
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Articles

How to Cite

“DEVELOPING A METHODOLOGY TO PREPARE DESIGN ACCORDING TO PRODUCTION REQUIREMENT ” (2024) Journal of Engineering, 16(04), pp. 5958–5981. doi:10.31026/j.eng.2010.04.19.

Publication Dates

References

Anderson, DM, Design for manufacturability and concurrent engineering. How to design for low cost-design for high quality-design for lean manufacture-design quickly for fast production, California CIM Press, 2004.

Bedworth, D.D., Henderson, M.R., Wolfe, P.M., Computer-integrated design and manufacturing, New York: McGraw-Hill, 1991

Boothroyd, G., Dewburst, P. Winston, K. Product design for manufacture and assembly, second edition, York Marcel dakker, 2002.

Bralla, JG, Design for manufacturability handbook, second edition, Boston McGraw- Hall, 1999

Esawi, AK. Aabby, M.F computer-based selection of manufacturing processes.methods. Software and case study, Journal I of engineering manufacture, proceedings of the entitution of (mechanical engineers, Volume 212, B8, pp 595-610, 1998

Groover, M.P. Fundamentals of modem manufacturing Materials, processes and system, second edition New Jersey: Prentice Hall, 2002

Ji. S. and others, Optimal tolerance allocation based on fuzzy comprehensive evaluation and genetic algorithm, International journal of advance manufacturing technology. No. 15. PP 461-46A 2000

Singh, N. Systems approach design and manufacturing, New York John Wiley & Sons, Inc, 196

Voland, G. Engesting by design, London Addous-Wesley, 1999

Whitney, D.E., Mechanical assembles: Their design, manufacture, and role in product development, New York-Oxford: Oxford University press, Inc. 2004.

Zendin, K.B., Maynard’s industrial engineering handbook, fifth edition, New York: McGraw-Hill, 2001

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