Fiber Orientation Quantification for Large Area Additively Manufactured Parts Using SEM Imaging

Polymer-based additively manufactured parts are increasing in popularity for industrial applications due to their ease of manufacturing and design form freedom, but their structural and thermal performances are often limited to those of the base polymer system. These limitations can be mitigated by...

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Bibliographic Details
Published in:Polymers 2023-06, Vol.15 (13), p.2871
Main Authors: Nargis, Rifat Ara, Jack, David Abram
Format: Article
Language:English
Subjects:
ABS resins
Acrylonitrile
Acrylonitrile butadiene styrene
Additive manufacturing
Aspect ratio
Beads
Butadiene
Carbon fiber reinforced plastics
Carbon fibers
Dimensional stability
Extrusion rate
Fiber composites
Fiber orientation
Fiber reinforced polymers
Fiber reinforcement
Image acquisition
Industrial applications
Polymer blends
Polymer industry
Polymers
Process parameters
Scanning electron microscopy
Technology application
Tensile strength
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Summary:Polymer-based additively manufactured parts are increasing in popularity for industrial applications due to their ease of manufacturing and design form freedom, but their structural and thermal performances are often limited to those of the base polymer system. These limitations can be mitigated by the addition of carbon fiber reinforcements to the polymer matrix, which enhances both the structural performance and the dimensional stability during cooling. The local fiber orientation within the processed beads directly impacts the mechanical and thermal performances, and correlating the orientation to processing parameter variations would lead to better part quality. This study presents a novel approach for analyzing the spatially varying fiber orientation through the use of scanning electron microscopy (SEM). This paper presents the sample preparation procedure including SEM image acquisition and analysis methods to quantify the internal fiber orientation of additively manufactured carbon fiber-reinforced composites. Large area additively manufactured beads with 13% by weight large aspect ratio carbon fiber-reinforced acrylonitrile butadiene styrene (ABS) pellets are the feedstock used in this study. Fiber orientation is quantified using the method of ellipses (MoE), and the spatial change in fiber orientation across the deposited bead cross-section is studied as a function of process parameters including extrusion speed, raster height, and extrusion temperature zones. The results in the present paper show the results from the novel use of SEM to obtain the local fiber orientation, and results show the variation in alignment within the individual processed bead as well as an overall aligned orientation state along the direction of deposition.
ISSN:2073-4360
2073-4360
DOI:10.3390/polym15132871