FRP-钢复合圆管约束混凝土轴压性能预测模型

《复合材料学报》优先在线发表论文。

摘  要：为改善聚偏氟乙烯（PVDF）基复合材料界面相容性、提高其电性能，利用聚多巴胺（PDA）成功包覆了纳米钛酸钡（BaTiO3），并引入纳米Ag离子制备出具有核-壳结构的Ag镶嵌BaTiO3@PDA-Ag颗粒。以介电聚合物聚偏氟乙烯-六氟丙烯（P(VDF-HFP)）为基体，采用溶液流延法制备了BaTiO3@PDA-Ag/P(VDF-HFP)复合材料厚膜。利用FTIR和XPS验证了复合材料结构和形貌，并用宽频介电频谱仪和铁电测试仪分别比较了PDA包覆前后的不同BaTiO3含量BaTiO3@PDA-Ag/P(VDF-HFP)复合材料膜在低电场下的介电性能和高电场下的电极化性能。结果表明，BaTiO3质量分数为20wt%的BaTiO3@PDA-Ag/P(VDF-HFP)膜在10Hz下介电常数（εr）达到了25，介电损耗（tanδ）仅为0.1，在175 MV·m-1电场下电极化强度（Dm）为5.8 μC·cm-2，200 MV·m-1时储能密度（Ue）达到了6.9 J·cm-3，高于其它界面未处理膜。以上结果可为未来此类介电复合材料界面结构处理和电性能研究提供参考。

关键词：BaTiO3；聚偏氟乙烯-六氟丙烯；介电；储能；核-壳结构 

Abstract:  To improve the interfacial compatibility as well as enhance the dielectric properties of a polyvinylidene fluoride based (PVDF-based) inorganic composite, the BaTiO3 nanoparticles were coated using an Ag decorated inorganic layer polydopamine (PDA). Subsequently the BaTiO3@PDA-Ag was introduced the dielectric polyvinylidene fluoride-hexafluoropropylene (P(VDF-HFP)) matrix and BaTiO3@PDA-Ag/P(VDF-HFP) composite films were prepared using a solution casting mothed. FTIR and XPS were employed to detect the structures and monographs of BaTiO3@PDA-Ag/P(VDF-HFP) composites, and the wide range frequency dielectric spectrometer and ferroelectric property testing system were used to compare the dielectric and polarizing properties of BaTiO3@PDA-Ag/P(VDF-HFP) composite films under various electric fields. In the BaTiO3@PDA-Ag/P(VDF-HFP) composite film with 20wt% BaTiO3, a high dielectric constant of 25 and low loss of 0.1, a large electric displacement of 5.8 μC·cm-2 under 175 MV·m-1, and a considerable high discharging energy density of 6.9 J ·cm-3 under 200 MV·m-1 were obtained. Considering its favorable interface and considerable electric performances, the core-shell structure of BaTiO3@PDA-Ag/P(VDF-HFP) composite provides a reference to the future research of this sorts of composites for energy storage devices.

Keywords: BaTiO3; polyvinylidene fluoride-hexafluoropropylene; dielectric; energy storage; core-shell

作者：夏卫民等，西安理工大学 印刷包装与数字媒体学院，西安

通讯作者：夏卫民，西安理工大学 印刷包装与数字媒体学院，西安

全文详见中国知网学术期刊优先数字出版。