A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods

A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods

The pursuit of polymer parts produced through foam injection moulding (FIM) that have a comparable surface roughness to conventionally processed components are of major relevance to expand the application of FIM. Within this study, 22% talc-filled copolymer polypropylene (PP) parts were produced thr...

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Bibliographic Details
Main Authors: Gethin Llewelyn, Andrew Rees, Christian Griffiths, Martin Jacobi
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Materials
Subjects:
Polypropylene
Talc
TecoCell<sup>®</sup>
MuCell<sup>®</sup>
Foam Injection Moulding
Online Access:https://www.mdpi.com/1996-1944/13/10/2358
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spelling doaj-6076111883e7496b9eeac5924d0adc1e2020-11-25T03:03:13ZengMDPI AGMaterials1996-19442020-05-01132358235810.3390/ma13102358A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding MethodsGethin Llewelyn0Andrew Rees1Christian Griffiths2Martin Jacobi3College of Engineering, Swansea University, Swansea, Wales SA1 8EN, UKCollege of Engineering, Swansea University, Swansea, Wales SA1 8EN, UKCollege of Engineering, Swansea University, Swansea, Wales SA1 8EN, UKTrexel GmbH, Ahlefelderstr. 64, D-51645 Gummersbach, GermanyThe pursuit of polymer parts produced through foam injection moulding (FIM) that have a comparable surface roughness to conventionally processed components are of major relevance to expand the application of FIM. Within this study, 22% talc-filled copolymer polypropylene (PP) parts were produced through FIM using both a physical and chemical blowing agent. A design of experiments (DoE) was performed whereby the processing parameters of mould temperatures, injection speeds, back-pressure, melt temperature and holding time were varied to determine their effect on surface roughness, Young’s modulus and tensile strength. The results showed that mechanical performance can be improved when processing with higher mould temperatures and longer holding times. Also, it was observed that when utilising chemical foaming agents (CBA) at low-pressure, surface roughness comparable to that obtained from conventionally processed components can be achieved. This research demonstrates the potential of FIM to expand to applications whereby weight saving can be achieved without introducing surface defects, which has previously been witnessed within FIM.https://www.mdpi.com/1996-1944/13/10/2358PolypropyleneTalcTecoCell<sup>®</sup>MuCell<sup>®</sup>Foam Injection Moulding
collection DOAJ
language English
format Article
sources DOAJ
author Gethin Llewelyn
Andrew Rees
Christian Griffiths
Martin Jacobi
spellingShingle Gethin Llewelyn
Andrew Rees
Christian Griffiths
Martin Jacobi
A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
Materials
Polypropylene
Talc
TecoCell<sup>®</sup>
MuCell<sup>®</sup>
Foam Injection Moulding
author_facet Gethin Llewelyn
Andrew Rees
Christian Griffiths
Martin Jacobi
author_sort Gethin Llewelyn
title A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
title_short A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
title_full A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
title_fullStr A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
title_full_unstemmed A Design of Experiment Approach for Surface Roughness Comparisons of Foam Injection-Moulding Methods
title_sort design of experiment approach for surface roughness comparisons of foam injection-moulding methods
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-05-01
description The pursuit of polymer parts produced through foam injection moulding (FIM) that have a comparable surface roughness to conventionally processed components are of major relevance to expand the application of FIM. Within this study, 22% talc-filled copolymer polypropylene (PP) parts were produced through FIM using both a physical and chemical blowing agent. A design of experiments (DoE) was performed whereby the processing parameters of mould temperatures, injection speeds, back-pressure, melt temperature and holding time were varied to determine their effect on surface roughness, Young’s modulus and tensile strength. The results showed that mechanical performance can be improved when processing with higher mould temperatures and longer holding times. Also, it was observed that when utilising chemical foaming agents (CBA) at low-pressure, surface roughness comparable to that obtained from conventionally processed components can be achieved. This research demonstrates the potential of FIM to expand to applications whereby weight saving can be achieved without introducing surface defects, which has previously been witnessed within FIM.
topic Polypropylene
Talc
TecoCell<sup>®</sup>
MuCell<sup>®</sup>
Foam Injection Moulding
url https://www.mdpi.com/1996-1944/13/10/2358
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