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Published
Apr 21, 2015
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Abstract

In this paper attempt has been made to eliminate the errors during each step while designing and analysis of the component to minimize the defects during manufacturing of the component. Air filter bottom box component was selected for the study and PPTF (polypropylene talc filled) was considered as a material for this component. Initially component was modeled and modified using wildfire pro-e 3.0 software. Estimation of structural quality of the part was carried out on the basis of injection moulding computer simulation technique.  Various computer simulations were carried out for different structural solutions with the support of literatures and also on the basis of instances happens in the industries. For the simulation mold flow insight 5.1 software was used.  Using  of  computer  methods  to  design  and  optimization  of  structural conclusions of parts, avoids rejections, rework and minimizes time, hence minimizes  the production cost. Results were compared with predictions presented in professional literature.  Results obtained during studies will be used during the process of injection mould. This study will help us to understand the use of simulating computer program applications in designing and initiation to production of polymer parts and also helps you to avoid potential manufacturing defects and get innovative products to market faster.

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Author Biography

Madhu Kumar K, Kumarswamy R, Nataraj M, Sir M. Visvesvaraya Institute of Technology, Visvesvaraya Technological University, Bengaluru-562157, Karnataka

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How to Cite
Nataraj M, M. K. K. K. R., & M, V. (2015). Pre – Destining the Quality of Plastic Parts Produced By Injection Molding Method Using Computer Simulation Techniques. International Journal of Emerging Trends in Science and Technology, 2(04). Retrieved from https://ijetst.igmpublication.org/index.php/ijetst/article/view/629

References

1. J. Nabialek , J. Koszkul, A. Gnatowski, Expectation of the parts quality on the ground the simulation of the injection moulding process, Archives of Materials Science and Engineering, Volume 32, Issue 2, August 2008, Pages 109-112.
2. R.Y.Chang and W.H.Yang, Three-dimensional computing-aided mold cooling design for injection molding, 740, ANTEC 2001, Dallas (2002).
3. Yi-Hui Peng, David C.Hsu and Venny Yang CoreTech System Co.,Ltd., The warpage simulation with in mold constraint effect in injecttion molding, HsinChu, Taiwan 300, ROC.
4. E. Bociga, T. Jaruga, K. Lubczyñska, A. Gnatowski, Warpage of injection moulded parts as the result of mould temperature difference, Department of Polymer Processing and Production Management, Czestochowa University of Technology, Al. Armii Krajowej 19c, 42-200 Czêstochowa, Poland. E-mail: jaruga@kpts.pcz.czest.pl.
5. Gašper Gantar, Andrej Glojek, Mitja Mori, Blaž Nardin, Mihael Sekavčnik, Resource Efficient Injection Moulding with Low Environmental Impacts, Journal of Mechanical Engineering 59(2013)3, 193-200, DOI:10.5545/sv-jme.2012.661, 2012.
6. E. Bociga, T. Jaruga, Experimental investigation of polymer flow in injection mould, Institute of Polymer Processing and Production Management, Al. Armii Krajowej 19c 42-200 Czêtochowa, Poland, E-mail address: jaruga@kpts.pcz.czest.pl.
7. J. Nabiałek, J. Koszkul, The polymer flow in a mold cavity during the injection molding process. Comparison of an experiment and computer simulations , Department of Polymers Processing and Production Management, Technical University of Czstochowa, Al. Armii Krajowej 19C, 42-200 Czstochowa, Poland.
8. D. Mathivanan, M. Nouby, R. Vidhya, Minimization of sink mark defects in injection molding process Taguchi approach, International Journal of Engineering, Science and Technology,Vol. 2, No. 2, 2010, pp. 13-22.