可3D打印聚合物基纳米复合材料的创新制备工艺和结构特征

THE 9TH INTERNATIONAL CONFERENCE ON STRUCTURAL ANALYSIS OF ADVANCED MATERIALS - ICSAAM 2019 Pub Date : 2019-12-12 DOI:10.1063/1.5140293

S. Politi, E. Tamburri, Rocco Carcione, T. Lavecchia, Mariglen Angjellari, M. Terranova

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引用次数: 2

摘要

这项工作详细介绍了pva -石墨烯薄片和pani -纳米金刚石纳米复合材料的合成和表征，这些材料适合用作3D增材制造工艺的油墨。通过优化的合成路线，在分散的石墨烯薄片存在下，实现了PVA与马来酸酐的化学交联，制备了PVA基纳米复合材料。聚苯胺基纳米复合材料是从苯胺单体开始，通过“原位”聚合过程在纯化的纳米金刚石分散体中进行。聚合物基纳米复合材料胶体分散体的3D逐层打印允许生产形状良好的固体物体，这些物体很有希望作为生物医学应用的支架。这项工作详细介绍了pva -石墨烯薄片和pani -纳米金刚石纳米复合材料的合成和表征，这些材料适合用作3D增材制造工艺的油墨。通过优化的合成路线，在分散的石墨烯薄片存在下，实现了PVA与马来酸酐的化学交联，制备了PVA基纳米复合材料。聚苯胺基纳米复合材料是从苯胺单体开始，通过“原位”聚合过程在纯化的纳米金刚石分散体中进行。聚合物基纳米复合材料胶体分散体的3D逐层打印允许生产形状良好的固体物体，这些物体很有希望作为生物医学应用的支架。

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Innovative preparation processes and structural characteristics of 3D printable polymer-based nanocomposites

This work details the synthesis and characterizations of PVA-graphene platelets and PANI-nanodiamonds nanocomposites as suitable materials to be used as inks for additive manufacturing processes by 3D methodology. The PVA-based nanocomposites are generated by an optimized synthetic route, in which the chemical crosslinking of PVA with maleic anhydride is realized in the presence of dispersed graphene platelets. The PANI-based nanocomposites are obtained starting from aniline monomer by an “in situ” polymerization process carried out in a dispersion of purified nanodiamonds. The 3D layer-by-layer printing of polymer-based nanocomposites colloidal dispersion allows to produce well-shaped solid objects that are promising as scaffolds for biomedical applications.This work details the synthesis and characterizations of PVA-graphene platelets and PANI-nanodiamonds nanocomposites as suitable materials to be used as inks for additive manufacturing processes by 3D methodology. The PVA-based nanocomposites are generated by an optimized synthetic route, in which the chemical crosslinking of PVA with maleic anhydride is realized in the presence of dispersed graphene platelets. The PANI-based nanocomposites are obtained starting from aniline monomer by an “in situ” polymerization process carried out in a dispersion of purified nanodiamonds. The 3D layer-by-layer printing of polymer-based nanocomposites colloidal dispersion allows to produce well-shaped solid objects that are promising as scaffolds for biomedical applications.

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THE 9TH INTERNATIONAL CONFERENCE ON STRUCTURAL ANALYSIS OF ADVANCED MATERIALS - ICSAAM 2019

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