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首页> 外文期刊>RSC Advances >Fabrication of PVDF/graphene composites with enhanced beta phase via conventional melt processing assisted by solid state shear milling technology
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Fabrication of PVDF/graphene composites with enhanced beta phase via conventional melt processing assisted by solid state shear milling technology

机译:通过固态剪切铣削技术辅助的常规熔融加工制备具有增强的β相的PVDF /石墨烯复合材料

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摘要

The beta-phase crystal, which decides the final electric properties of poly(vinylidene fluoride) (PVDF), is extremely difficult to obtain via conventional melt processing due to its thermal instability. In this work, with the assistance of our independently developed solid state shear milling ((SM)-M-3) technology, which could provide multiple stresses and form a micro-stretching field on PVDF to promote the transformation of more alpha phase to beta phase, PVDF/graphene (PVDF/GP) composite with relatively higher beta phase (42.2%), higher than that directly prepared by melt blending without (SM)-M-3 (33.0%), and dielectric properties was achieved through conventional melt extrusion and injection. When the GP content was 1.0 wt%, the dielectric constant of the composite was 465 at 1000 Hz, about 42 times that of pure PVDF. The special squeezing and shearing forces of (SM)-M-3 also realized the exfoliation of GP as well as the solid grafting of GP layers on PVDF molecules, improving the dispersion of GP layers in PVDF and making them effectively exert their heterogeneous nucleation as well as enhancement effects on PVDF, thus increasing the crystallinity, thermal stability and mechanical properties of the composites.
机译:β相晶,其决定聚(偏二氟乙烯)(PVDF)的最终电性能,这是由于其热不稳定性而通过常规熔体加工而获得极其难以获得的。在这项工作中,在我们独立开发的固态剪切铣削((SM)-M-3)技术的帮助下,这可以提供多种应力并在PVDF上形成微伸展场,以促进更多α相对β的转化相对于β相(42.2%)的相,PVDF /石墨烯(PVDF / GP)复合材料高于通过熔融混合的直接制备的(SM)-M-3(33.0%)直接制备(33.0%),通过常规熔体实现电介质性质挤出和注射。当GP含量为1.0wt%时,复合材料的介电常数为465,1000Hz,约42倍的纯PVDF。 (SM)-M-3的特殊挤压和剪切力也实现了GP的剥离以及PVDF分子上的GP层的固体接枝,改善了PVDF中GP层的分散,使它们有效地发挥其异质成核作为以及对PVDF的增强效果,从而增加了复合材料的结晶度,热稳定性和机械性能。

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  • 来源
    《RSC Advances》 |2020年第6期|共11页
  • 作者

    Zhang Huili; Zhu Yan; Li Li;

  • 作者单位

    Sichuan Univ State Key Lab Polymer Mat Engn Polymer Res Inst Chengdu 610065 Peoples R China;

    Sichuan Univ State Key Lab Polymer Mat Engn Polymer Res Inst Chengdu 610065 Peoples R China;

    Sichuan Univ State Key Lab Polymer Mat Engn Polymer Res Inst Chengdu 610065 Peoples R China;

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  • 正文语种 eng
  • 中图分类 化学;
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