采用3D打印CJP技术制备的基于TiO2和碳纳米结构的导电复合材料

Ol. D Zolotarenk, E. Rudakova, N. Akhanova, A. Zolotarenko, D. Shchur, M. Gabdullin, M. Ualkhanova, N. Gavrylyuk, M. Chymbai, T. Myronenko, I. Zagorulko, A. Zolotarenko, O. Havryliuk
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引用次数: 4

摘要

在这项工作中,创建了用于CJP技术3D打印的氧化钛(TiO2)与碳纳米结构的机械混合物,作为制造导电复合3D产品的耗材。通过CJP 3D打印技术,使用各种碳纳米结构(单壁和多壁碳纳米管和碳纳米纤维)创建复合3D产品(TiO2 -СNS)。研究并提出了在三维复合材料(CJP)行星球混合器上加工机械混合物(TiO2/MWCNT)的最佳工艺条件。在机械化学加工的最佳条件下(76 J/g),确定变形对机械混合物的影响剂量,该剂量允许不恶化材料的导电性。构建了复合3D产品(CNS/TiO2,其中CNS含量为3wt . %)的电导率与陶瓷(TiO2)中所含碳纳米结构(SWCNT, MWCNT和CNF)类型的依赖关系。研究还记录了复合材料三维产物(TiO2-MWCNT)的比电导率(G)与多壁碳纳米管质量含量的指数依赖性。在研究复合材料3D产品(CJP)电导率的框架下,基于Pt/ TiO2-MWCNT复合材料制备了一种燃料电池阴极。结果表明,碳纳米管含量为5 wt. %的Pt/ TiO2-MWCNT催化剂具有最佳的氧回收催化活性。同时,铂(Pt)的平均粒径为5 ~10 nm,而EDX样品中Pt的含量约为~10 wt. %。此外,还进行了Pt/TiO2-MWCNT复合材料的混合研究,MWCNT含量为15%和50%。采用透射电镜和扫描电镜对样品进行分析。
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Electrically conductive composites based on TiO2 and carbon nanostructures manufactured using 3D printing of CJP technology
The mechanical mixtures of titanium oxide (TiO2) with carbon nanostructures for 3D printing of CJP technology, which are used as consumables for the manufacturing of electrically conductive composite 3D products, are created in this work. Various carbon nanostructures (single- and multi-walled carbon nanotubes and carbon nanofibers) were used in the creation of composite 3D products (TiO2–СNS) by CJP 3D printing technology. Optimal conditions for processing of mechanical mixtures (TiO2/MWCNT) on a planetary ball mixer for composite 3D products (CJP) were studied and proposed. The dose of the deformation influence on the mechanical mixture under optimal conditions of mechanochemical processing (76 J/g), which allows not to deteriorate the electrical conductivity of the material, is determined. The dependence of the electrical conductivity of composite 3D products (CNS/TiO2, where the CNS content is 3 wt. %) on the type of carbon nanostructures (SWCNT, MWCNT and CNF) contained in ceramics (TiO2), is constructed. The exponential dependence of the specific electrical conductivity (G) of composite 3D products (TiO2–MWCNT) on the mass content of multi-walled carbon nanotubes, is also recorded in the work. In the framework of the study of the electrical conductivity of composite 3D products (CJP), a fuel cell cathode based on a Pt/TiO2–MWCNT composite was created. It was found that the catalyst Pt/TiO2–MWCNT, which contains 5 wt. % of carbon nanotubes, has the best catalytic activity in oxygen recovery. At the same time, the average particle size of platinum (Pt) is 5–10 nm, while the content of Pt in the EDX samples is approximately ~10 wt. %. Also, studies were carried out from the mixing of Pt/TiO2-MWCNT composites with MWCNT content 15 and 50 wt. %. Samples were analyzed by transmission and scanning electron microscopy.
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