Investigating the synergistic effects of carbon and glass fibers on the mechanical and thermal properties of phenol‐containing phthalonitrile composites

The progressive development of lightweight composites exhibiting desirable thermo‐mechanical properties is an area of growing interest, particularly with the phthalonitrile (PN) based composites, which have shown great potential. However, our understanding of the mechanical and thermal properties of...

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Published in	Journal of applied polymer science Vol. 142; no. 4
Main Authors	Daham, Abbas, Zegaoui, Abdeldjalil, Gorar, Athar Ali Khan, Zhicheng, Wang, Wang, Jun, Tian, Bo, Pan, Zhong‐Cheng, Liu, Wen‐Bin, Derradji, Mehdi
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc 20.01.2025
Subjects	Carbon fiber reinforced plastics Composite materials Flexural strength Glass fiber reinforced plastics Mechanical properties Phenols Polymer matrix composites Resins Synergistic effect Thermal stability Thermodynamic properties Thermogravimetric analysis Thermomechanical properties
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Abstract	The progressive development of lightweight composites exhibiting desirable thermo‐mechanical properties is an area of growing interest, particularly with the phthalonitrile (PN) based composites, which have shown great potential. However, our understanding of the mechanical and thermal properties of the phenol‐containing phthalonitrile (PN75) resin composites often reveals limitations that make them less suitable for specific structural applications. In this work, we focused on enhancing the mechanical and thermal properties of the PN75 resin through the incorporation of the 4‐aminophthalonitrile (4‐APN), resulting in improved the curing behaviors and increased thermal stability. Our investigation of the short carbon fiber (SCF) and short glass fiber (SGF) reinforced PN75 resin composites revealed that the hybrid SCF/SGF‐based composites at 15 wt% SCF and 15 wt% SGF content exhibited an excellent tensile and the flexural strength. Additionally, the thermogravimetric analysis demonstrated maximum onset degradation and decomposition temperatures at this ratio compared with the neat resin, also we evaluated the interfacial adhesion properties of the SCF/SGF and the PN75 resin composites. These findings contribute to the advancement of polymer composite materials and expand their potential applications across various industries.
AbstractList	The progressive development of lightweight composites exhibiting desirable thermo‐mechanical properties is an area of growing interest, particularly with the phthalonitrile (PN) based composites, which have shown great potential. However, our understanding of the mechanical and thermal properties of the phenol‐containing phthalonitrile (PN75) resin composites often reveals limitations that make them less suitable for specific structural applications. In this work, we focused on enhancing the mechanical and thermal properties of the PN75 resin through the incorporation of the 4‐aminophthalonitrile (4‐APN), resulting in improved the curing behaviors and increased thermal stability. Our investigation of the short carbon fiber (SCF) and short glass fiber (SGF) reinforced PN75 resin composites revealed that the hybrid SCF/SGF‐based composites at 15 wt% SCF and 15 wt% SGF content exhibited an excellent tensile and the flexural strength. Additionally, the thermogravimetric analysis demonstrated maximum onset degradation and decomposition temperatures at this ratio compared with the neat resin, also we evaluated the interfacial adhesion properties of the SCF/SGF and the PN75 resin composites. These findings contribute to the advancement of polymer composite materials and expand their potential applications across various industries.
Author	Gorar, Athar Ali Khan Daham, Abbas Zegaoui, Abdeldjalil Liu, Wen‐Bin Tian, Bo Wang, Jun Zhicheng, Wang Derradji, Mehdi Pan, Zhong‐Cheng
Author_xml	– sequence: 1 givenname: Abbas surname: Daham fullname: Daham, Abbas organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 2 givenname: Abdeldjalil surname: Zegaoui fullname: Zegaoui, Abdeldjalil organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 3 givenname: Athar Ali Khan surname: Gorar fullname: Gorar, Athar Ali Khan organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 4 givenname: Wang surname: Zhicheng fullname: Zhicheng, Wang organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 5 givenname: Jun surname: Wang fullname: Wang, Jun organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 6 givenname: Bo surname: Tian fullname: Tian, Bo organization: Heilongjiang Institute of Atomic Energy Harbin People's Republic of China – sequence: 7 givenname: Zhong‐Cheng surname: Pan fullname: Pan, Zhong‐Cheng organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 8 givenname: Wen‐Bin orcidid: 0000-0003-0390-8455 surname: Liu fullname: Liu, Wen‐Bin organization: College of Materials Science and Chemical Engineering Harbin Engineering University Harbin People's Republic of China – sequence: 9 givenname: Mehdi surname: Derradji fullname: Derradji, Mehdi organization: UER Procédés Energétiques Ecole Militaire Polytechnique Algiers Algeria
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SubjectTerms	Carbon fiber reinforced plastics Composite materials Flexural strength Glass fiber reinforced plastics Mechanical properties Phenols Polymer matrix composites Resins Synergistic effect Thermal stability Thermodynamic properties Thermogravimetric analysis Thermomechanical properties
Title	Investigating the synergistic effects of carbon and glass fibers on the mechanical and thermal properties of phenol‐containing phthalonitrile composites
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