Journal of Composite Materials, volume 57, issue 24, pages 3775-3787

Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites

Publication typeJournal Article
Publication date2023-08-02
Q2
Q3
SJR0.528
CiteScore5.4
Impact factor2.3
ISSN00219983, 1530793X
Materials Chemistry
Ceramics and Composites
Mechanical Engineering
Mechanics of Materials
Abstract

This study investigates the thermal behaviour of discontinuous carbon fibre reinforced polyphenylene sulphide (CF/PPS), additively manufactured by material extrusion, with a focus on the effects of thermal process conditions on the degree of crystallinity, oxidation crosslinking and mechanical properties of CF/PPS from filament fabrication, material extrusion to annealing treatment. The screw extrusion parameters are optimised by performing a thermal analysis of the fabricated filaments. The effect of crosslinking reactions on the crystallinity process in determining the mechanical properties of the printed samples is illustrated by investigating the influence of the printing conditions. Furthermore, the effect of annealing treatment on the semi-crystalline polyphenylene sulphide (PPS) is studied by measuring the degree of crystallinity and viscoelasticity behaviours. Results demonstrate that the flexural properties of the printed CF/PPS composites at elevated processing temperatures are determined by the oxidation crosslinking between PPS chains. These enhance the crystallisation process of semi-crystalline polymers by acting as the nucleating agent first but negatively affect the mechanical properties at higher temperatures because of the detrimental effects of the polymer inter-chain bonding. The maximum flexural strength of printed CF/PPS reached 164.65 MPa when processing at an extrusion temperature of 280°C, a printing temperature of 320°C, and an annealing temperature of 130°C for 6 h. By adjusting the thermal treatment conditions, the degree of the crystallinity and the mechanical properties of the printed CF/PPS composites can be designed, controlled and tailored.

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Lyu Y. et al. Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites // Journal of Composite Materials. 2023. Vol. 57. No. 24. pp. 3775-3787.
GOST all authors (up to 50) Copy
Lyu Y., Wu J., Zhang H., Brádaigh C. M. Ó., Yang D. Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites // Journal of Composite Materials. 2023. Vol. 57. No. 24. pp. 3775-3787.
RIS |
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RIS Copy
TY - JOUR
DO - 10.1177/00219983231194391
UR - https://doi.org/10.1177/00219983231194391
TI - Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites
T2 - Journal of Composite Materials
AU - Lyu, Yahui
AU - Wu, Jiang
AU - Zhang, Haoqi
AU - Brádaigh, Conchúr M Ó
AU - Yang, D.
PY - 2023
DA - 2023/08/02
PB - SAGE
SP - 3775-3787
IS - 24
VL - 57
SN - 0021-9983
SN - 1530-793X
ER -
BibTex |
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BibTex (up to 50 authors) Copy
@article{2023_Lyu,
author = {Yahui Lyu and Jiang Wu and Haoqi Zhang and Conchúr M Ó Brádaigh and D. Yang},
title = {Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites},
journal = {Journal of Composite Materials},
year = {2023},
volume = {57},
publisher = {SAGE},
month = {aug},
url = {https://doi.org/10.1177/00219983231194391},
number = {24},
pages = {3775--3787},
doi = {10.1177/00219983231194391}
}
MLA
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MLA Copy
Lyu, Yahui, et al. “Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites.” Journal of Composite Materials, vol. 57, no. 24, Aug. 2023, pp. 3775-3787. https://doi.org/10.1177/00219983231194391.
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