Multi-process tooling for discontinuous carbon and hybrid glass fiber thermoplastics

Expensive tooling often constraints the use of composites in the design and development of automotive parts. While there is significant confidence and knowledge in sheet and bulk metals, composite processes are less understood in mass production environment. The processes used to produce composites...

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Bibliographic Details
Published in:Advances in mechanical engineering 2022-07, Vol.14 (7)
Main Authors: Vaidya, Uday, Robinson, Mark, Hiremath, Nitilaksha, Yeole, Pritesh, Theodore, Merlin, Hassen, Ahmed, Unser, John
Format: Article
Language:English
Subjects:
Automotive parts
Compacting
Composite materials
Glass fiber reinforced plastics
Mass production
Short fibers
Thermoplastic resins
Tooling
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Summary:Expensive tooling often constraints the use of composites in the design and development of automotive parts. While there is significant confidence and knowledge in sheet and bulk metals, composite processes are less understood in mass production environment. The processes used to produce composites and resulting properties are influenced by fiber length attrition, resin to fiber ratio, process waste etc. Tool designs are determined very early in the engineering process. It is cost prohibitive to build additional tools, in the event it becomes obvious a better processing method and material would be beneficial, the original decision is not easily changed. In the present work we recognize the bottleneck of tooling costs and provide an approach of multi-process tooling. The innovation of this work is the design and demonstration of a single tool for different processes namely injection, injection-compression and extrusion-compression. The materials used in this study were long and short fiber thermoplastics (LFTs and SFTs). The resulting structure-property relationships have been reported for the materials and processing methods with a battery tray (BT) tool.
ISSN:1687-8132
1687-8140
DOI:10.1177/16878132221113941