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    王立达

    • 副教授       硕士生导师
    • 性别:男
    • 毕业院校:大连理工大学
    • 学位:博士
    • 所在单位:化工学院
    • 学科:化学工程
    • 办公地点:大连理工大学西部校区化工综合楼A506
    • 电子邮箱:ldwang@dlut.edu.cn

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    Size-controlled graphite nanoplatelets: thermal conductivity enhancers for epoxy resin

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    论文类型:期刊论文

    发表时间:2019-07-01

    发表刊物:JOURNAL OF MATERIALS SCIENCE

    收录刊物:SCIE、EI

    卷号:54

    期号:13

    页面范围:10041-10054

    ISSN号:0022-2461

    关键字:Crystal atomic structure; Epoxy resins; Fillers; Graphite, Conductive fillers; Economic competitiveness; Graphite nanoplatelets; Graphite nanoplatelets (GNPs); High thermal conductivity; Nitric acid treatment; Preparation process; Quantitative study, Thermal conductivity

    摘要:Graphite nanoplatelets (GNPs) are outstanding thermal conductive fillers due to their unique crystal structure which consists of layered graphene formed by sp(2)-hybridized carbon atoms, but their preparation process is time-consuming. Herein, a high-efficiency and low-cost method is developed to prepare GNPs with controlled size without destroying their crystal structure. GNPs with an average size around 20m are obtained by a facile nitric acid treatment within 0.5h, and 1-5m GNPs are produced by controlling ultrasonic time within 6h in cheap commercial detergent. In addition, thermal network is fabricated by combining similar to 20m GNPs with 1-5m GNPs in epoxy. The existing researches have qualitatively demonstrated that hybrid carbon fillers with obvious size differences can enhance the thermal conductivity of epoxy through size synergistic effects, but rare quantitative studies pay attention to optimize size synergistic effects. This work demonstrates that different degrees of size synergistic effects can be achieved by tuning the size of small-sized GNPs, the proportion of different sized GNPs and the content of hybrid fillers. The results show that when the hybrid filler loading is 20wt% and the ratio of similar to 20m GNPs to 1.82m GNPs is 17:3, the composite produces the optimal size synergistic effect and thermal conductivity reaches 1.33W/mK, increased by 739% over neat epoxy. This composite has promising application in the thermal management areas due to its high thermal conductivity and economic competitiveness.