Quasi-static compression properties of graphene aerogel

Lulu Niu; Jing Xie; Pengwan Chen; Guangyong Li; Xuetong Zhang

doi:10.1016/j.diamond.2020.108225

Quasi-static compression properties of graphene aerogel

Lulu Niu, Jing Xie^*, Pengwan Chen, Guangyong Li, Xuetong Zhang

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科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

Graphene aerogel (GA) is a promising candidate for energy absorption purposes because of its very low density, high specific surface area and porous structure. GA samples, prepared by the Sol-Gel method, were tested under quasi-static compression, and characterized via surface area analyzer, as well as scanning electron microscopy and transmission electron microscopy. The results show that 98% (and above) porous GA samples, whose elastic modulus is 2.9 MPa, can support at least 35,000 times its weight. Scaling analysis shows that the mechanical properties of GA are superior to those of conventional polymeric open-cell foams. The GA samples exhibit a negative structural Poisson's ratio under the uniaxial compression test, which is most likely due to the bread-like microstructural evolution. Due to the mesopores of the GA sample as well as the negative structural Poisson's ratio, the GA has considerable toughness.

源语言	英语
文章编号	108225
期刊	Diamond and Related Materials
卷	111
DOI	https://doi.org/10.1016/j.diamond.2020.108225
出版状态	已出版 - 1月 2021

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10.1016/j.diamond.2020.108225

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title = "Quasi-static compression properties of graphene aerogel",

abstract = "Graphene aerogel (GA) is a promising candidate for energy absorption purposes because of its very low density, high specific surface area and porous structure. GA samples, prepared by the Sol-Gel method, were tested under quasi-static compression, and characterized via surface area analyzer, as well as scanning electron microscopy and transmission electron microscopy. The results show that 98% (and above) porous GA samples, whose elastic modulus is 2.9 MPa, can support at least 35,000 times its weight. Scaling analysis shows that the mechanical properties of GA are superior to those of conventional polymeric open-cell foams. The GA samples exhibit a negative structural Poisson's ratio under the uniaxial compression test, which is most likely due to the bread-like microstructural evolution. Due to the mesopores of the GA sample as well as the negative structural Poisson's ratio, the GA has considerable toughness.",

keywords = "Axial compression, Graphene aerogel, Microstructure evolution, Negative structural Poisson's ratio, Toughness",

author = "Lulu Niu and Jing Xie and Pengwan Chen and Guangyong Li and Xuetong Zhang",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

year = "2021",

month = jan,

doi = "10.1016/j.diamond.2020.108225",

language = "English",

volume = "111",

journal = "Diamond and Related Materials",

issn = "0925-9635",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Quasi-static compression properties of graphene aerogel

AU - Niu, Lulu

AU - Xie, Jing

AU - Chen, Pengwan

AU - Li, Guangyong

AU - Zhang, Xuetong

PY - 2021/1

Y1 - 2021/1

N2 - Graphene aerogel (GA) is a promising candidate for energy absorption purposes because of its very low density, high specific surface area and porous structure. GA samples, prepared by the Sol-Gel method, were tested under quasi-static compression, and characterized via surface area analyzer, as well as scanning electron microscopy and transmission electron microscopy. The results show that 98% (and above) porous GA samples, whose elastic modulus is 2.9 MPa, can support at least 35,000 times its weight. Scaling analysis shows that the mechanical properties of GA are superior to those of conventional polymeric open-cell foams. The GA samples exhibit a negative structural Poisson's ratio under the uniaxial compression test, which is most likely due to the bread-like microstructural evolution. Due to the mesopores of the GA sample as well as the negative structural Poisson's ratio, the GA has considerable toughness.

AB - Graphene aerogel (GA) is a promising candidate for energy absorption purposes because of its very low density, high specific surface area and porous structure. GA samples, prepared by the Sol-Gel method, were tested under quasi-static compression, and characterized via surface area analyzer, as well as scanning electron microscopy and transmission electron microscopy. The results show that 98% (and above) porous GA samples, whose elastic modulus is 2.9 MPa, can support at least 35,000 times its weight. Scaling analysis shows that the mechanical properties of GA are superior to those of conventional polymeric open-cell foams. The GA samples exhibit a negative structural Poisson's ratio under the uniaxial compression test, which is most likely due to the bread-like microstructural evolution. Due to the mesopores of the GA sample as well as the negative structural Poisson's ratio, the GA has considerable toughness.

KW - Axial compression

KW - Graphene aerogel

KW - Microstructure evolution

KW - Negative structural Poisson's ratio

KW - Toughness

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DO - 10.1016/j.diamond.2020.108225

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SN - 0925-9635

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JO - Diamond and Related Materials

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ER -

Quasi-static compression properties of graphene aerogel

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