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首页> 外文期刊>Scientific reports. >Robust Surface-Engineered Tape-Cast and Extrusion Methods to Fabricate Electrically-Conductive Poly(vinylidene fluoride)/Carbon Nanotube Filaments for Corrosion-Resistant 3D Printing Applications
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Robust Surface-Engineered Tape-Cast and Extrusion Methods to Fabricate Electrically-Conductive Poly(vinylidene fluoride)/Carbon Nanotube Filaments for Corrosion-Resistant 3D Printing Applications

机译:用于制造导电聚(偏二氟乙烯)/碳纳米管长丝的耐腐蚀3D打印应用的鲁棒表面设计的胶带和挤出方法

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We developed a poly(vinylidene fluoride)/carbon nanotube (PVDF-MWCNT) filament as a feed for printing of electrically-conductive and corrosion-resistant functional material by fused filament fabrication (FFF). Using an environment-friendly procedure to fabricate PVDF-MWCNT filament, we achieved the best reported electrical conductivity of printable PVDF-MWCNT filament of 28.5?S?cmsup-1/sup (90?wt% PVDF and 10?wt% CNT). The PVDF-MWCNT filaments are chemically stable in acid, base, and salt solution, with no significant changes in electrical conductivity and mass of the filaments. Our processing method is robust and allow a uniform mixture of PVDF and CNT with a wide range of CNT percentage up to 99.9%. We demonstrated the printing of PVDF-MWCNT filaments to create 3D shapes; printed using a low-cost commercial consumer-grade FFF 3D printer. We found many adjustments of printer parameters are needed to print filament with CNT content 10?wt%, but easier printing for CNT content ≤10?wt%. Since this was due to printer limitation, we believed that PVDF-MWCNT with higher CNT percentage (to a certain limit) and larger electrical conductivity could be printed with a custom-built printer (for example stronger motor). PVDF-MWCNT filament shows higher electrical conductivity (28.5?S?cmsup-1/sup) than compressed composite (8.8?S?cmsup-1/sup) of the same 10?wt% of CNT, due to more alignment of CNT in the longitudinal direction of the extruded filament. Printable PVDF-MWCNT-Fesub2/subOsub3/sub (with a functional additive of Fesub2/subOsub3/sub) showed higher electrical conductivity in the longitudinal direction at the filament core (42?S?cmsup-1/sup) compared to that in the longitudinal direction at the filament shell (0.43?S?cmsup-1/sup) for sample with composition of 60?wt% PVDF, 20?wt% CNT, and 20?wt% Fesub2/subOsub3/sub, due to extrusion skin effect with segregation of electrically insulating Fesub2/subOsub3/sub at the shell surface of PVDF-MWCNT-Fesub2/subOsub3/sub.
机译:我们开发了一种聚(偏二氟乙烯)/碳纳米管(PVDF-MWCNT)丝作为用于通过熔合长丝制造(FFF)印刷导电和耐腐蚀功能材料的进料。使用环保程序来制造PVDF-MWCNT灯丝,我们实现了28.5Ω·cm -1 / sup>(90≤pvdf和10的最佳报告的可打印PVDF-MWCNT长丝的电导率。 wt%cnt)。 PVDF-MWCNT长丝在酸,碱和盐溶液中在化学稳定,导电性和细丝质量没有显着变化。我们的加工方法是稳健的,并且允许PVDF和CNT的均匀混合物,具有宽范围的CNT百分比,高达99.9%。我们展示了PVDF-MWCNT长丝的印刷以产生3D形状;使用低成本商业消费级FFF 3D打印机印刷。我们发现需要许多打印机参数调整,以便使用CNT含量>10≤10≤10≤10≤10≤10≤10的更容易印刷。由于这是由于打印机限制,我们认为具有较高CNT百分比的PVDF-MWCNT(在一定限度)和较大的导电性可以用定制的打印机(例如更强的电机)打印。 PVDF-MWCNT长丝显示出比压缩复合物(8.8·s≤CM -1℃)的电导率越高(28.5〜s≤xcm -1 / sup> -1 -1 / sup>) CNT,由于CNT在挤出长丝的纵向方向上的比较更多。可打印PVDF-MWCNT-FE 2 O 3 (具有Fe 2 O 3 )的功能添加剂与丝壳的纵向方向上的纵向芯(42°Sφcm -1 / sup>)在纵向方向上的导电率(0.43Ω·s≤cm -1 / Sup>)对于用组合物为60·wt%pvdf,20·wt%CNT和20·wt%Fe 2 O 3 的样品,由于挤出皮肤效应电绝缘Fe 2 O 3 在PVDF-MWCNT-FE 2 3 3 的壳表面上的偏析。

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