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Boron nitride/agarose hydrogel composites with high thermal conductivities
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作者 Ali Yazdan Ji-Zhe Wang +4 位作者 bing-kun hu Wen-Sheng Xie Ling-Yun Zhao Ce-Wen Nan Liang-Liang Li 《Rare Metals》 SCIE EI CAS CSCD 2020年第4期375-382,共8页
Hydrogels are cross-linked polymers suitable for various applications,but the thermal conductivities of hydrogel-based composites have not been thoroughly investigated.In this study,agarose hydrogel-based composites w... Hydrogels are cross-linked polymers suitable for various applications,but the thermal conductivities of hydrogel-based composites have not been thoroughly investigated.In this study,agarose hydrogel-based composites with various boron nitride(BN)fillers were synthesized and their thermal conductivities were systematically investigated.With the increase in the agarose content from 1.5 wt%to 3.0 wt%,the thermal conductivity of the composite decreased.The composites with BN micropowder had larger thermal conductivities than those of the composites with BN nanopowder at the same filler loading,as the BN micropowder provided better thermal conduction pathways in the hydrogel matrix than those provided by the nanopowder.The maximum thermal conductivity of 2.69 W m-1·K-1 was achieved when 15 wt%microscale BN fillers were added into 1.5 wt%agarose hydrogel,which was 3.5 times larger than that of the pure agarose hydrogel.Additionally,a theoretical model was used to calculate the thermal conductivities of the BN/agarose hydrogel composites;a good agreement was achieved between the experimental and fitting ones.This study demonstrated that the thermal conductivities of hydrogel-based materials can be efficiently and significantly enhanced using BN fillers. 展开更多
关键词 HYDROGEL Boron nitride Thermal conductivity COMPOSITE
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