Thermal conductivities, mechanical and thermal properties of graphite nanoplatelets/polyphenylene sulfide composites

Junwei Gu; Junjie Du; Jing Dang; Wangchang Geng; Sihai Hu; Qiuyu Zhang

doi:10.1039/c4ra01761g

Thermal conductivities, mechanical and thermal properties of graphite nanoplatelets/polyphenylene sulfide composites

Junwei Gu
, Junjie Du
, Jing Dang
, Wangchang Geng
, Sihai Hu
, Qiuyu Zhang

School of Chemistry and Chemical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

108 Scopus citations

Abstract

Functionalized pristine graphite nanoplatelets (fGNPs) by methanesulfonic acid/isopropyltrioleictitanate (MSA/NDZ-105) are used to fabricate fGNPs/polyphenylene sulfide (fGNPs/PPS) composites by mechanical ball milling followed by a compression molding method. The thermal conductive coefficient of the fGNPs/PPS composite with 40 wt% fGNPs is greatly improved to 4.414 W m ^-1 K^-1, 19 times higher than that of the original PPS. For a given GNP loading, the surface functionalization of GNPs by MSA/NDZ-105 results in the fGNPs/PPS composites improving thermal conductivities by minimizing the interfacial thermal resistance. The thermal stabilities of the fGNPs/PPS composites are increased with the increasing addition of fGNPs. This journal is

Original language	English
Pages (from-to)	22101-22105
Number of pages	5
Journal	RSC Advances
Volume	4
Issue number	42
DOIs	https://doi.org/10.1039/c4ra01761g
State	Published - 2014

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abstract = "Functionalized pristine graphite nanoplatelets (fGNPs) by methanesulfonic acid/isopropyltrioleictitanate (MSA/NDZ-105) are used to fabricate fGNPs/polyphenylene sulfide (fGNPs/PPS) composites by mechanical ball milling followed by a compression molding method. The thermal conductive coefficient of the fGNPs/PPS composite with 40 wt\% fGNPs is greatly improved to 4.414 W m -1 K-1, 19 times higher than that of the original PPS. For a given GNP loading, the surface functionalization of GNPs by MSA/NDZ-105 results in the fGNPs/PPS composites improving thermal conductivities by minimizing the interfacial thermal resistance. The thermal stabilities of the fGNPs/PPS composites are increased with the increasing addition of fGNPs. This journal is",

author = "Junwei Gu and Junjie Du and Jing Dang and Wangchang Geng and Sihai Hu and Qiuyu Zhang",

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T1 - Thermal conductivities, mechanical and thermal properties of graphite nanoplatelets/polyphenylene sulfide composites

AU - Gu, Junwei

AU - Du, Junjie

AU - Dang, Jing

AU - Geng, Wangchang

AU - Hu, Sihai

AU - Zhang, Qiuyu

PY - 2014

Y1 - 2014

N2 - Functionalized pristine graphite nanoplatelets (fGNPs) by methanesulfonic acid/isopropyltrioleictitanate (MSA/NDZ-105) are used to fabricate fGNPs/polyphenylene sulfide (fGNPs/PPS) composites by mechanical ball milling followed by a compression molding method. The thermal conductive coefficient of the fGNPs/PPS composite with 40 wt% fGNPs is greatly improved to 4.414 W m -1 K-1, 19 times higher than that of the original PPS. For a given GNP loading, the surface functionalization of GNPs by MSA/NDZ-105 results in the fGNPs/PPS composites improving thermal conductivities by minimizing the interfacial thermal resistance. The thermal stabilities of the fGNPs/PPS composites are increased with the increasing addition of fGNPs. This journal is

AB - Functionalized pristine graphite nanoplatelets (fGNPs) by methanesulfonic acid/isopropyltrioleictitanate (MSA/NDZ-105) are used to fabricate fGNPs/polyphenylene sulfide (fGNPs/PPS) composites by mechanical ball milling followed by a compression molding method. The thermal conductive coefficient of the fGNPs/PPS composite with 40 wt% fGNPs is greatly improved to 4.414 W m -1 K-1, 19 times higher than that of the original PPS. For a given GNP loading, the surface functionalization of GNPs by MSA/NDZ-105 results in the fGNPs/PPS composites improving thermal conductivities by minimizing the interfacial thermal resistance. The thermal stabilities of the fGNPs/PPS composites are increased with the increasing addition of fGNPs. This journal is

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DO - 10.1039/c4ra01761g

M3 - 文章

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EP - 22105

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Thermal conductivities, mechanical and thermal properties of graphite nanoplatelets/polyphenylene sulfide composites

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