Functionally graded graphene reinforced composite structures: A review

•The successful fabrication of FG-GPLRC is reported.•Micromechanics models to predict effective mechanical properties of GPLRC are reviewed.•A comprehensive review on the mechanical analyses of FG-GPLRC structures is presented.•Key technical challenges are identified and future research directions a...

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Veröffentlicht in:Engineering structures 2020-05, Vol.210, p.110339, Article 110339
Hauptverfasser: Zhao, Shaoyu, Zhao, Zhan, Yang, Zhicheng, Ke, LiaoLiang, Kitipornchai, Sritawat, Yang, Jie
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Sprache:eng
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Zusammenfassung:•The successful fabrication of FG-GPLRC is reported.•Micromechanics models to predict effective mechanical properties of GPLRC are reviewed.•A comprehensive review on the mechanical analyses of FG-GPLRC structures is presented.•Key technical challenges are identified and future research directions are discussed. Owing to their superior mechanical properties, e.g. exceptionally high Young’s modulus, high strength, large specific surface area, and good thermal conductivity, graphene and its derivatives such as graphene platelets (GPLs) are excellent reinforcing nanofillers for composite materials. The most recently developed functionally graded graphene platelets reinforced composite (FG-GPLRC) where GPLs are non-uniformly dispersed with more GPLs in the area where they are most needed to achieve significantly improved mechanical performance has opened up a new avenue for the development of next generation structural forms with an excellent combination of high stiffness, light weight and multi-functionality. Research activities in this emerging area have been rapidly increasing since it was first proposed in 2017. The present paper (i) briefly reviews the mechanical properties of graphene and graphene composites; (ii) summarizes the characteristics of functionally graded materials (FGM) and reports the fabrication of FG-GPLRC; (iii) discusses the existing micromechanics models for the prediction of effective mechanical properties of GPLRC; (iv) presents a comprehensive review on the mechanical analyses of FG-GPLRC structures; and (v) discuss the key technical challenges and future research directions.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2020.110339