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AN INTEGRATED APPROACH FOR DESIGN AND MANUFACTURE OF PLASTIC PRODUCTS

Authors:

Ivan Matin1

, Djordje Vukelic1, Miodrag Hadzistevic1, Branko Strbac1, Dejan Lukic1

1University of Novi Sad, Faculty of Technical Sciences, Novi Sad, Serbia

Received: 16.01.2019.
Accepted: 01.03.2019.
Available: 31.03.2019.

Abstract:

The aim of this paper is to present an integrated design procedure for plastic part development and manufacture. Reverse engineering (RE), reengineering (ReE) and mold design have been incorporated to infuse agile characteristics in the proposed design and development process. The integration of RE and ReE presented in this paper accelerate the design process and provide information necessary for complete injection molding process of plastic parts. The purpose is to create a new object geometrically similar to the existing object. The new object must have better mechanical properties and more favorable geometry from the standpoint of mold ability. This paper also, describes a methodology for quality geometry check of the manufactured part that is need for verified the used integrated CAD/CAE technologies.

Keywords:

Mold design, reverse engineering, re-engineering, injection molding simulation

References:

[1] A. Fahraz, B.V. Chowdary, L. Gonzales, Anintegrated design approach for rapid product development: A case study through application of reverse engineering, reengineering and fast prototyping tools. Journal of Engineering, Design and Technology, 11 (2), 2013: 178-189. https://doi.org/10.1108/JEDT-06-2011-0042
[2] I. Matin., D. Vukelic., M. Hadzistevic., B. Strbac, Z., Santosi., D. Lukic, An integrated design approach for plastic part development. 13th International Scientific Conference MMA, Novi Sad, Serbia, September 28-29, 2018.
[3] M. Buonamici, M. Carfagni., R. Furferi, L. Governi, A. Lapini, F. Volpe, Reverse engineering of mechanical parts: A templatebased approach. Journal of Computational Design and Engineering, 5 (2), 2018: 145-159. https://doi.org/10.1016/j.jcde.2017.11.009
[4] A. Voicu, I.G. Gheorghe, L.L. Badita., A. Cirstoiu, 3D Measuring of complex automotive parts by multiple laser scanning. Applied Mechanics and Materials, 371, 2013: 519-523. https://doi.org/10.4028/www.scientific.net/AMM.371.519
[5] J. Wang, D. Gu, Z. Gao, Z. Yu, C. Tan, L. Zhou, Feature-based solid model reconstruction. Journal of Computing and Information Science in Engineering, 13 (1), 2013: 211-223.
[6] J. Wang, D. Gu, Z. Yu, C. Tan, L. Zhou, A framework for 3D model reconstruction in reverse engineering. Computers and Industrial Engineering, 63, 2012: 1189-1200. https://doi.org/10.1016/j.cie.2012.07.009
[7] B.V. Chowdary, A. De Noon, F. Ali, C. Imbert, An investigation for improvement of the 3Ddigitization process: a reverse engineering approach. Journal of Manufacturing Technology Management, 22 (1), 2011: 131-147. https://doi.org/10.1108/17410381111099842
[8] K.H. Chang, C. Chen, 3D shape engineering and design parameterization. Computer-Aided Design and Applications, 8 (5), 2011: 681-692. https://doi.org/10.3722/cadaps.2011.681-692
[9] K.H. Chang, Z. Siddique, M. Edke, Z. Chen, An integrated testbed for reverse engineering of aging systems and components. ComputerAided Design and Applications, 3 (1-4), 2006:21-30. https://doi.org/10.1080/16864360.2006.10738438
[10] M.J. Garcia, P. Boulanger, M. Henau, Structural optimization of as-built parts using reverse engineering and evolution strategies. Structural and Multidisciplinary Optimization, 35 (6), 2008: 541-550. https://doi.org/10.1007/s00158-007-0122-6
[11] I. Sovilj-Nikic, S. Sovilj-Nikic, B. Sovilj, I. Samardzic, D. Kozak, V. Blanusa, Analysis of roughness parameters of lateral back surfaces of model hob milling tools during cylindrical gear cutting. Applied Engineering Letters, 3 (2), 2018: 63-71. https://doi.org/10.18485/aeletters.2018.3.2.3
[12] Y.M. Deng, G.A. Britton, Y.C. Lam, Y.S. Ma, Feature-based CAD/CAE integration model for injection-moulded product design. International Journal of Production Research, 40 (15), 2002: 3737-3750. https://doi.org/10.1080/00207540210141643
[13] H. Zhou, S. Shi, B. Ma, A virtual injection molding system based on numerical simulation. International Journal of Advanced Manufacturing Technology, 40 (3-4), 2009:297-306. https://doi.org/10.1007/s00170-007-1332-1
[14] J. Zhou, J. Li, Y. Hu, J. Yang, K. Cheng, Plastic mold design of top-cover of out-shell of mouse based on CAE. Advanced in Control Engineering and Information Science, Procedia Engineering, 15, 2011: 4441-4445. https://doi.org/10.1016/j.proeng.2011.08.834
[15] I. Matin., M. Hadzistevic., J. Hodolic, D. Vukelic, D. Lukic, A CAD/CAE-integrated injection mold design system for plastic products. International Journal of Advanced Manufacturing Technology, 63, 2012: 595-607.
https://doi.org/10.1007/s00170-012-3926-5
[16] M. Hadzistevic, I. Matin, J. Hodolic, D. Vukelic, S. Vukmirovic, D. Godec, B. Nedic, Rule base reasoning in the knowledge-based mould design system. Tehnicki vjesnik – Technical Gazette, 21 (5), 2014: 1330-3651.
[17] I. Matin, M. Hadzistevic, D. Vukelic, M. Milutinovic, R. Golebski, Application of numerical simulation of injection molding of medical accessory. Journal for technology of plasticity, 41 (1), 2016: 47-55.
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)

Volume 9
Number 3
September 2024

Last Edition

Volume 9
Number 3
September 2024

How to Cite

I. Matin, D.Vukelic, M. Hadzistevic, B. Strbac, D. Lukic, An Integrated Approach for Design and Manufacture of Plastic Products. Applied Engineering Letters, 4(1), 2019: 1-5.
https://doi.org/10.18485/aeletters.2019.4.1.1

More Citation Formats

Matin, I., Vukelic, D., Hadzistevic, M., Strbac, B., & Lukic, D. (2019). An Integrated Approach for Design and Manufacture of Plastic Products. Applied Engineering Letters4(1), 1–5. https://doi.org/10.18485/aeletters.2019.4.1.1

Matin, Ivan, et al. “An Integrated Approach for Design and Manufacture of Plastic Products.” Applied Engineering Letters, vol. 4, no. 1, 2019, pp. 1–5, https://doi.org/10.18485/aeletters.2019.4.1.1.

Matin, Ivan, Djordje Vukelic, Miodrag Hadzistevic, Branko Strbac, and Dejan Lukic. 2019. “An Integrated Approach for Design and Manufacture of Plastic Products.” Applied Engineering Letters 4 (1): 1–5. https://doi.org/10.18485/aeletters.2019.4.1.1.

Matin, I., Vukelic, D., Hadzistevic, M., Strbac, B. and Lukic, D. (2019). An Integrated Approach for Design and Manufacture of Plastic Products. Applied Engineering Letters, 4(1), pp.1–5. doi:10.18485/aeletters.2019.4.1.1.

AN INTEGRATED APPROACH FOR DESIGN AND MANUFACTURE OF PLASTIC PRODUCTS

Authors:

Ivan Matin1

, Djordje Vukelic1, Miodrag Hadzistevic1, Branko Strbac1, Dejan Lukic1

1University of Novi Sad, Faculty of Technical Sciences, Novi Sad, Serbia

Received: 16.01.2019.
Accepted: 01.03.2019.
Available: 31.03.2019.

Abstract:

The aim of this paper is to present an integrated design procedure for plastic part development and manufacture. Reverse engineering (RE), reengineering (ReE) and mold design have been incorporated to infuse agile characteristics in the proposed design and development process. The integration of RE and ReE presented in this paper accelerate the design process and provide information necessary for complete injection molding process of plastic parts. The purpose is to create a new object geometrically similar to the existing object. The new object must have better mechanical properties and more favorable geometry from the standpoint of mold ability. This paper also, describes a methodology for quality geometry check of the manufactured part that is need for verified the used integrated CAD/CAE technologies.

Keywords:

Mold design, reverse engineering, re-engineering, injection molding simulation

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)

Volume 9
Number 3
September 2024

Last Edition

Volume 9
Number 3
September 2024