Competence of Carbonaceous Fibers/Nanofillers (Graphene, Carbon Nanotube) Reinforced Shape Memory Composites/Nanocomposites Towards Aerospace—Existent Status and Expansions DOI Open Access
Ayesha Kausar

Advances in Materials Science, Journal Year: 2024, Volume and Issue: 24(3), P. 30 - 55

Published: Sept. 1, 2024

Abstract Shape memory or stimuli responsive polymers have established a unique grouping of smart materials. The technical merit these has been evaluated in aerospace sector, since last few decades. Particularly, the render inherent competences to recuperate structural damages exterior/interior space architectures. In this context, both thermoplastics as well thermosetting depicted essential behaviour. As interpreted state-of the-art review, carbonaceous reinforcement like carbon fibers and nano-reinforcements including nanocarbons (graphene, nanotube) employed shape recovering matrices. performance ensuing retrieving materials was seemed be reliant on polymer chain crosslinking effects, filler/nanofiller dispersal/alignment, microstructural specs, interfacial contour interactions, processing techniques used. Consequently, actuations polymer/carbon fiber composites were found instigated upgraded through inclusion nanocarbon nano-additives. high-tech composites/nanocomposites anomalous significance for various aero-structural units (fuselage, wings, antennas, engines, etc.) due prevention possible thermal/shock/impact damages. Future implications demands minimizing structure-property-performance challenges large scale fabrication industrial utilizations. way, deployment nanofiller/filler based revealed enormous worth low density, anti-fatigue/wear, anti-corrosion, non-flammability, self-healing, extended durability long life operations. However, there are certain associated with use nanocomposites field markedly adoption appropriate coating technique, aggregation aptitude nanocarbons, additional steps/cost, nanoparticle initiated invisible defects/voids, difficulty machinability operations presence nanoparticles, corrosion risk composite structures contact metal surfaces. By overcoming hinderances, nanoparticles modified can promising towards new look upcoming modernized industry.

Language: Английский

Improved mechanical properties of graphene-modified basalt fibre–epoxy composites DOI Creative Commons
Harun Sepetçioğlu, Lubomí­r Lapčí­k, Barbora Lapčí­ková

et al.

Nanotechnology Reviews, Journal Year: 2024, Volume and Issue: 13(1)

Published: Jan. 1, 2024

Abstract In industrial applications, the potential of basalt fibre-reinforced polymer (BFRP) composite pipes as a compelling alternative to glass and carbon is recognized. Their high recyclability makes them viable option for aerospace, marine, automotive applications. this study, comparison made between mechanical properties virgin basalt–epoxy graphene-modified counterparts. To conduct experiments, pipe section specimens were prepared using flex grinding machine. Graphene nanoplatelets (GnPs), serving an exceptional reinforcing material, uniformly incorporated into composites at specific concentration. The inclusion these resulted in significant changes stiffness compared pipes. A series tests, including uniaxial tensile, Charpy impact, microhardness, Shore D hardness, 3-point bending, dynamic displacement transmissibility carried out assess both graphene-reinforced findings indicated that pure exhibited lower ductility graphene after undergoing loading. Non-destructive vibration testing was used investigate complex response materials under examination. observed frequency-dependent responses reflected mutual ductile/brittle performance developed composites.

Language: Английский

Citations

6
A Review on Synthesis and Characterization of Composites Reinforced with Nanoparticles, Glass Fiber, and Jute Fiber for Aerospace Applications DOI Creative Commons
Md. Ibrahim Abdullah, Mohammad Zoynal Abedin,

Saifur Rahman Bakaul

et al.

Results in Surfaces and Interfaces, Journal Year: 2025, Volume and Issue: unknown, P. 100492 - 100492

Published: March 1, 2025

Language: Английский

Citations

0
Nanodiamond Reinforced Shape Memory Nanocomposites— Versatile Features and Promises DOI
Ayesha Kausar

Polymer-Plastics Technology and Materials, Journal Year: 2024, Volume and Issue: 64(1), P. 88 - 104

Published: Aug. 8, 2024

This state-of-the-art overview highlights the significance of high performance shape memory polymer/nanodiamond nanocomposites. Nanodiamond reinforced polymeric nanocomposites have been designed and advantageously studied for design, microstructure, physical properties, structure–property relation/phenomenon, effects, possible technical advancements. filled polymer matrices effects include polyesters, polyurethane, poly(N-isopropylacrylamide), epoxy, polyaniline, chitosan, etc. Addition nanodiamond especially functional nanoparticles may develop and/or covalent interactions with to form interlinking/cross-linking network responsible active fixing/recovery behavior. Noteworthy thermo-responsive, electroactive, photoactive, photothermal, magnetic sensitive observed. Application areas observed so far are smart strain sensing wearable electronics, antibacterial biosensing, civil engineering related areas.

Language: Английский

Citations

1
Competence of Carbonaceous Fibers/Nanofillers (Graphene, Carbon Nanotube) Reinforced Shape Memory Composites/Nanocomposites Towards Aerospace—Existent Status and Expansions DOI Open Access
Ayesha Kausar

Advances in Materials Science, Journal Year: 2024, Volume and Issue: 24(3), P. 30 - 55

Published: Sept. 1, 2024

Abstract Shape memory or stimuli responsive polymers have established a unique grouping of smart materials. The technical merit these has been evaluated in aerospace sector, since last few decades. Particularly, the render inherent competences to recuperate structural damages exterior/interior space architectures. In this context, both thermoplastics as well thermosetting depicted essential behaviour. As interpreted state-of the-art review, carbonaceous reinforcement like carbon fibers and nano-reinforcements including nanocarbons (graphene, nanotube) employed shape recovering matrices. performance ensuing retrieving materials was seemed be reliant on polymer chain crosslinking effects, filler/nanofiller dispersal/alignment, microstructural specs, interfacial contour interactions, processing techniques used. Consequently, actuations polymer/carbon fiber composites were found instigated upgraded through inclusion nanocarbon nano-additives. high-tech composites/nanocomposites anomalous significance for various aero-structural units (fuselage, wings, antennas, engines, etc.) due prevention possible thermal/shock/impact damages. Future implications demands minimizing structure-property-performance challenges large scale fabrication industrial utilizations. way, deployment nanofiller/filler based revealed enormous worth low density, anti-fatigue/wear, anti-corrosion, non-flammability, self-healing, extended durability long life operations. However, there are certain associated with use nanocomposites field markedly adoption appropriate coating technique, aggregation aptitude nanocarbons, additional steps/cost, nanoparticle initiated invisible defects/voids, difficulty machinability operations presence nanoparticles, corrosion risk composite structures contact metal surfaces. By overcoming hinderances, nanoparticles modified can promising towards new look upcoming modernized industry.

Language: Английский

Citations

0