Numerical Simulation of Microcellular Injection Molding: A Case Study

Numerical Simulation of Microcellular Injection Molding: A Case Study

The microcellular injection molding, often referred to as MuCell®, is an innovative polymer processing technique that utilizes supercritical inert gases, such as CO2 or N2, to manufacture lightweight plastic products. This technology has gained significant attention in recent years due to environmen...

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Bibliografiske detaljer
Main Authors: A. Chaabene, A. Ben Khalifa, S. Chatti
Format: Article
Sprog:engelsk
Udgivet: Galati University Press 2024-12-01
Serier:Annals of "Dunarea de Jos" University of Galati, Fascicle XII, Welding Equipment and Technology
Fag:
plastic injection
microcellular injection molding
mucell
mechanical properties
surface quality
Online adgang:https://www.gup.ugal.ro/ugaljournals/index.php/awet/article/view/7099
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Summary:The microcellular injection molding, often referred to as MuCell®, is an innovative polymer processing technique that utilizes supercritical inert gases, such as CO2 or N2, to manufacture lightweight plastic products. This technology has gained significant attention in recent years due to environmental concerns and the increasing demand for lightweight components with superior mechanical properties. However, challenges related to surface finish quality and limited mechanical properties have impeded its widespread adoption. This paper provides a comprehensive overview of the microcellular injection molding process. To evaluate the practicality of the MuCell® process, an industrial case study is conducted, assessing its production reliability and overall product quality. A comparative rheological analysis is performed to discern the distinctions between MuCell® and traditional injection molding, thus validating the claimed advantages of microcellular injection. Based on the accrued findings, it is deduced that MuCell® proves to be a pertinent injection molding technique for fabricating lightweight plastic components featuring enhanced dimensional stability, reduced shrinkage, and minimized warping when compared to conventionally injection-molded parts.
ISSN:1221-4639
2668-6163

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