Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding

Plastic injection molding is discontinuous and a complicated process involving the interaction of several variables for control the quality of the molded parts. The goal of this research was to investigate the optimal parameter selection, the significant parameters, and the effect of the injection-m...

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Main Authors: Md Deros, Mohd Azaman, Salit, Mohd Sapuan, Sulaiman, Shamsuddin, Zainudin, Edi Syams, Abdan, Khalina
Format: Article
Language:English
Published: Society of Plastics Engineers 2015
Online Access:http://psasir.upm.edu.my/id/eprint/34679/1/Optimization%20and%20numerical%20simulation%20analysis%20for%20molded%20thin-walled%20parts%20fabricated%20using%20wood-filled%20polypropylene%20composites%20via%20plastic%20injection%20molding.pdf
http://psasir.upm.edu.my/id/eprint/34679/
http://onlinelibrary.wiley.com/wol1/doi/10.1002/pen.23979/abstract
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spelling my.upm.eprints.346792016-09-19T07:13:47Z http://psasir.upm.edu.my/id/eprint/34679/ Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding Md Deros, Mohd Azaman Salit, Mohd Sapuan Sulaiman, Shamsuddin Zainudin, Edi Syams Abdan, Khalina Plastic injection molding is discontinuous and a complicated process involving the interaction of several variables for control the quality of the molded parts. The goal of this research was to investigate the optimal parameter selection, the significant parameters, and the effect of the injection-molding parameters during the post-filling stage (packing pressure, packing time, mold temperature, and cooling time) with respect to in-cavity residual stresses, volumetric shrinkage and warpage properties. The PP + 60 wt% wood material is not suitable for molded thin-walled parts. In contrast, the PP + 50 wt% material was found to be the preferred type of lignocellulosic polymer composite for molded thin-walled parts. The results showed the lower residual stresses approximately at 20.10 MPa and have minimum overpacking in the ranges of −0.709% to −0.174% with the volumetric shrinkage spread better over the part surface. The research found that the packing pressure and mold temperature are important parameters for the reduction of residual stresses and volumetric shrinkage, while for the reduction of warpage, the important processing parameters are the packing pressure, packing time, and cooling time for molded thin-walled parts that are fabricated using lignocellulosic polymer composites. Society of Plastics Engineers 2015 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/34679/1/Optimization%20and%20numerical%20simulation%20analysis%20for%20molded%20thin-walled%20parts%20fabricated%20using%20wood-filled%20polypropylene%20composites%20via%20plastic%20injection%20molding.pdf Md Deros, Mohd Azaman and Salit, Mohd Sapuan and Sulaiman, Shamsuddin and Zainudin, Edi Syams and Abdan, Khalina (2015) Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding. Polymer Engineering & Science, 55 (5). pp. 1082-1095. ISSN 0032-3888; ESSN: 1548-2634 http://onlinelibrary.wiley.com/wol1/doi/10.1002/pen.23979/abstract 10.1002/pen.23979
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Plastic injection molding is discontinuous and a complicated process involving the interaction of several variables for control the quality of the molded parts. The goal of this research was to investigate the optimal parameter selection, the significant parameters, and the effect of the injection-molding parameters during the post-filling stage (packing pressure, packing time, mold temperature, and cooling time) with respect to in-cavity residual stresses, volumetric shrinkage and warpage properties. The PP + 60 wt% wood material is not suitable for molded thin-walled parts. In contrast, the PP + 50 wt% material was found to be the preferred type of lignocellulosic polymer composite for molded thin-walled parts. The results showed the lower residual stresses approximately at 20.10 MPa and have minimum overpacking in the ranges of −0.709% to −0.174% with the volumetric shrinkage spread better over the part surface. The research found that the packing pressure and mold temperature are important parameters for the reduction of residual stresses and volumetric shrinkage, while for the reduction of warpage, the important processing parameters are the packing pressure, packing time, and cooling time for molded thin-walled parts that are fabricated using lignocellulosic polymer composites.
format Article
author Md Deros, Mohd Azaman
Salit, Mohd Sapuan
Sulaiman, Shamsuddin
Zainudin, Edi Syams
Abdan, Khalina
spellingShingle Md Deros, Mohd Azaman
Salit, Mohd Sapuan
Sulaiman, Shamsuddin
Zainudin, Edi Syams
Abdan, Khalina
Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
author_facet Md Deros, Mohd Azaman
Salit, Mohd Sapuan
Sulaiman, Shamsuddin
Zainudin, Edi Syams
Abdan, Khalina
author_sort Md Deros, Mohd Azaman
title Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
title_short Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
title_full Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
title_fullStr Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
title_full_unstemmed Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
title_sort optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding
publisher Society of Plastics Engineers
publishDate 2015
url http://psasir.upm.edu.my/id/eprint/34679/1/Optimization%20and%20numerical%20simulation%20analysis%20for%20molded%20thin-walled%20parts%20fabricated%20using%20wood-filled%20polypropylene%20composites%20via%20plastic%20injection%20molding.pdf
http://psasir.upm.edu.my/id/eprint/34679/
http://onlinelibrary.wiley.com/wol1/doi/10.1002/pen.23979/abstract
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