Direct ink writing of silica-carbon-calcite composite scaffolds from a silicone resin and fillers

Hamada Elsayed; Francesco Carraro; Stefano Agnoli; Devis Bellucci; Valeria Cannillo; Letizia Ferroni; Chiara Gardin; Barbara Zavan; Enrico Bernardo

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Direct ink writing of silica-carbon-calcite composite scaffolds from a silicone resin and fillers

机译：来自硅树脂和填料的二氧化硅 - 碳结石复合支架的直接墨水写入

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Calcite-based composite scaffolds have been successfully 3D-printed by direct ink writing, starting from a paste comprising a silicone polymer and calcite (CaCO3) powders. The firing in nitrogen, at 600?°C, after preliminary cross-linking step at 350?°C, determined the transformation of the polymer matrix into a silica-carbon nano-composite, embedding unreacted calcite particles. Compared to previously developed silica-calcite scaffolds, obtained after firing in air, the new composites exhibited a significant strength improvement (up to ～10?MPa, for a total open porosity of 56%). The new formulation did not compromise thein vitrobioactivity and the biocompatibility of the scaffolds, as shown by dissolution studies in SBF and preliminary cell culture tests, with human fibroblasts. Due to the simplicity of the processing and the outstanding mechanical performances, the developed scaffolds are promising candidates for bone tissue engineering applications.

机译：基于方解石的复合支架已经通过直接墨水写入成功地印刷，从包含硅氧烷聚合物和方解石（CaCO 3）粉末的糊状物开始。在350℃下初步交联步骤后，在600℃下烧制氮气，确定聚合物基质转化到二氧化硅 - 碳纳米复合物中，嵌入未反应的方解石颗粒。与先前开发的二氧化硅 - 方解石支架相比，在空气中烧制后获得的二氧化硅 - 方解石支架，新的复合材料表现出显着的强度改善（最高〜10？MPa，总开放孔隙度为56％）。新的配方并未损害素毒素和支架的生物相容性，如SBF中的溶解研究和初步细胞培养试验所示，具有人的成纤维细胞。由于加工的简单性和出色的机械性能，所发育的支架是骨组织工程应用的承诺候选者。

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来源
《Journal of the European Ceramic Society》 |2018年第15期|共8页
作者
Hamada Elsayed; Francesco Carraro; Stefano Agnoli; Devis Bellucci; Valeria Cannillo; Letizia Ferroni; Chiara Gardin; Barbara Zavan; Enrico Bernardo;
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作者单位

Dipartimento di Ingegneria Industriale University of Padova;

Dipartimento di Scienze Chimiche University of Padova;

Dipartimento di Scienze Chimiche University of Padova;

Dipartimento di Ingegneria “E. Ferrari” Università degli Studi di Modena e Reggio Emilia;

Dipartimento di Ingegneria “E. Ferrari” Università degli Studi di Modena e Reggio Emilia;

Department of Biomedical Sciences Universiy of Padova;

Department of Biomedical Sciences Universiy of Padova;

Department of Biomedical Sciences Universiy of Padova;

Dipartimento di Ingegneria Industriale University of Padova;

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原文格式 PDF
正文语种 eng
中图分类陶瓷工业;
关键词
Calcite; Direct 3D printing; Bioactivity; Preceramic polymers; Biocompatibility;

机译：方解石;直接3D打印;生物活性;Precermic聚合物;生物相容性;

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专利

1. Direct ink writing of silica-carbon-calcite composite scaffolds from a silicone resin and fillers [J] . Hamada Elsayed, Francesco Carraro, Stefano Agnoli, Journal of the European Ceramic Society . 2018,第15期

机译：来自硅树脂和填料的二氧化硅 - 碳结石复合支架的直接墨水写入
2. Direct ink writing of silica-bonded calcite scaffolds from preceramic polymers and fillers [J] . Fiocco L., Elsayed H., Badocco D., Biofabrication . 2017,第2期

机译：从料理聚合物和填料的直接墨水写入二氧化硅键合方解石支架
3. Direct ink writing of silica-bonded calcite scaffolds from preceramicpolymers and fillers [J] . L Fiocco, H Elsayed, D Badocco Biofabrication . 2017,第2期

机译：从预聚物和填料的直接墨水写入二氧化硅键合的方解石支架
4. DIRECT INK WRITING OF GRAPHENE OXIDE REINFORCED PDMS MATRIX COMPOSITES FOR IMPROVED MECHANICAL PROPERTIES [C] . Chao Liu, Li Jiang, Junjun Ding ASME International Mechanical Engineering Congress and Exposition . 2019

机译：石墨烯氧化物增强PDMS基质复合材料的直接墨水写入改善机械性能
5. Tailored Composite Microstructures via Direct Ink Writing with Acoustophoresis [D] . Friedrich, Leanne . 2020

机译：通过具有声渗的直接墨水写入量身定制的复合微结构
6. Optimization and Characterization of Preceramic Inks for Direct Ink Writing of Ceramic Matrix Composite Structures [O] . Giorgia Franchin, Halide Selin Maden, Larissa Wahl, 2018

机译：陶瓷基复合材料直接写墨的陶瓷油墨的优化与表征
7. Direct Ink Writing of Recycled Composites with Complex Shapes: Process Parameters and Ink Optimization [O] . Andrea Mantelli, Alessia Romani, Raffaella Suriano, 2021

机译：具有复杂形状的再生复合材料的直接墨水写入：工艺参数和墨水优化

Direct ink writing of silica-carbon-calcite composite scaffolds from a silicone resin and fillers

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