Determination of effecting dimensional parameters on warpage of thin shell plastic parts using integrated response surface method and genetic algorithm

Decreasing warpage is a very significant topic to improve the quality of injection-molded parts. Dimensional stability is an important factor for the minimum warpage of thin shell plastic part. In this study, efficient minimization of warpage on thin shell plastic parts by integrating finite element...

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Bibliographic Details
Published in:International communications in heat and mass transfer 2005-08, Vol.32 (8), p.1085-1094
Main Authors: Ozcelik, Babur, Erzurumlu, Tuncay
Format: Article
Language:English
Subjects:
Applied sciences
Design of experiment
Exact sciences and technology
Genetic algorithm
Injection moulding
Machinery and processing
Moulding
Plastic injection molding
Plastics
Polymer industry, paints, wood
Response surface model
Technology of polymers
Warpage
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Summary:Decreasing warpage is a very significant topic to improve the quality of injection-molded parts. Dimensional stability is an important factor for the minimum warpage of thin shell plastic part. In this study, efficient minimization of warpage on thin shell plastic parts by integrating finite element analysis, statistical design of experiment method, response surface methodology and genetic algorithm is investigated. A thin shell plastic part model is considered as an example. To achieve the minimum warpage, optimum process condition dimensional parameters are determined. X dimension, Y dimension, and Z dimension are considered as model variables. Another parameters of effecting minimum warpage are taken into consideration as constant, such as mold temperature, melt temperature, injection time, injection pressure, etc. Finite element analyses are conducted for combination of process parameters organized using statistical three-level full factorial experimental design. A predictive model for warpage is created using response surface methodology exploiting finite element analysis results. Response surface model is interfaced with an effective genetic algorithm to find the optimum process parameter values.
ISSN:0735-1933
1879-0178
DOI:10.1016/j.icheatmasstransfer.2004.10.032