Mechanical property and thermal stability of short carbon fiber reinforced polysulfonamide composites

In this paper, polysulfonamide‐based composite materials (SCF/PSAf composite) reinforced by the short carbon fiber were prepared. The mechanical properties and thermal stability of SCF/PSAf composite were characterized experimentally and compared with those of polysulfonamide‐based single‐polymer co...

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Bibliographic Details
Published in:Polymer composites 2024-04, Vol.45 (6), p.5009-5016
Main Authors: Chen, ZeChao, An, Tong, Lu, KeAn, Hong, JianTing, Zhang, FangZhou, Peng, YuQing, Li, AiJun, Zheng, Zhen, Liu, LiQi
Format: Article
Language:English
Subjects:
Bonding strength
Carbon fibers
Composite materials
DMA
Fiber composites
Flexural strength
Hot pressing
Interfacial bonding
Mechanical properties
Nanoindentation
Operating temperature
Polymer matrix composites
SCF/PSAf composite
Storage modulus
Thermal stability
Thermodynamic properties
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Summary:In this paper, polysulfonamide‐based composite materials (SCF/PSAf composite) reinforced by the short carbon fiber were prepared. The mechanical properties and thermal stability of SCF/PSAf composite were characterized experimentally and compared with those of polysulfonamide‐based single‐polymer composites (PSA SPCs). Results showed that SCF/PSAf composites exhibit higher thermal stability due to the excellent thermal stability of SCFs. Furthermore, the additional short carbon fibers also considerably enhance the flexure strength of PSA SPCs due to the strong interfacial bonding between SCF and PSAf. The properties and understanding of SCF/PSAf composite obtained in this work can benefit further applications of this novel composite material. Highlights SCF/PSAf composites are prepared by hot compression, and the adhesion between the PSA matrix and SCF is good. The flexural strength of the SCF/PSAf composite is about 2.5 times higher than that of PSA SPCs. The storage modulus of SCF/PSAf composites is about 3.5 times higher than that of PSA SPCs. The addition of short carbon fibers helps to improve the thermal properties of SCF/PSAf composites. SCF/PSAf composite has a stronger ability to resist deformation and a higher operating temperature than the PSA SPCs do. Composite preparation.
ISSN:0272-8397
1548-0569
DOI:10.1002/pc.28105