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二氧化钛纳米颗粒对3D打印胶凝材料新拌性能的影响。

Effect of TiO Nanoparticles on the Fresh Performance of 3D-Printed Cementitious Materials.

作者信息

de Matos Paulo, Zat Tuani, Corazza Kiara, Fensterseifer Emilia, Sakata Rafael, Mohamad Gihad, Rodríguez Erich

机构信息

Academic Coordination, Federal University of Santa Maria (UFSM), Cachoeira do Sul 96503-205, Brazil.

Department of Structures and Civil Construction, Federal University of Santa Maria (UFSM), Santa Maria 97105-900, Brazil.

出版信息

Materials (Basel). 2022 May 30;15(11):3896. doi: 10.3390/ma15113896.

DOI:10.3390/ma15113896
PMID:35683202
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9182311/
Abstract

3D printing (3DP) of cementitious materials shows several advantages compared to conventional construction methods, but it requires specific fresh-state properties. Nanomaterials have been used in cement-based materials to achieve specific fresh and hardened properties, being potential candidates for 3DP applications. However, there are no reports on using TiO2 nanoparticles (nano-TiO2) in 3DP cementitious composites. Thus, the current work aims to assess the effect of nano-TiO2 on the fresh performance of 3DP cementitious materials. For this purpose, nano-TiO2 was incorporated in pastes and mortars from 0 to 1.5 wt.%. Time-resolved hydration (in situ XRD) and rheological and printing-related properties (buildability and printability) were evaluated. Results showed that nano-TiO2 particles enhanced the cement hydration kinetics, leading to further ettringite formation up to 140 min compared to plain cement paste. Rheological measurements showed that the nano-TiO2 incorporation progressively increased the static and dynamic stress, viscosity, and structuration rate of pastes. Furthermore, nano-TiO2 improved the buildability of the composites, progressively increasing the maximum number of successive layers printed before failure from 11 (0 wt.% TiO2) to 64 (1.5 wt.% TiO2). By contrast, the nano-TiO2 addition reduced the printability (i.e., the printable period during which the sample was able to be molded by the 3D-printing process) from 140 min (0% TiO2) to 90 min (1.5% TiO2). Thus, incorporating “high” nano-TiO2 contents (e.g., >1 wt.%) was beneficial for buildability but would require a quicker 3DP process. The adoption of nano-TiO2 contents of around 0.75−1.00% may be an interesting choice since it reduced the printability of paste by 30 min compared with the control mix but allowed for printing 24 layers (118% higher than plain mortar).

摘要

与传统施工方法相比,胶凝材料的3D打印(3DP)具有若干优势,但它需要特定的新拌状态性能。纳米材料已被用于水泥基材料中以实现特定的新拌及硬化性能,是3DP应用的潜在候选材料。然而,尚无关于在3DP胶凝复合材料中使用二氧化钛纳米颗粒(纳米TiO₂)的报道。因此,当前工作旨在评估纳米TiO₂对3DP胶凝材料新拌性能的影响。为此,纳米TiO₂以0至1.5 wt.%的比例掺入到浆体和砂浆中。对时间分辨水化(原位XRD)以及流变学和与打印相关的性能(可施工性和可打印性)进行了评估。结果表明,纳米TiO₂颗粒增强了水泥水化动力学,与普通水泥浆体相比,在长达140分钟的时间内导致更多钙矾石生成。流变学测量表明,掺入纳米TiO₂会逐渐增加浆体的静态和动态应力、粘度以及结构化速率。此外,纳米TiO₂改善了复合材料的可施工性,使破坏前连续打印的最大层数从11层(0 wt.% TiO₂)逐渐增加到64层(1.5 wt.% TiO₂)。相比之下,添加纳米TiO₂使可打印性(即样品能够通过3D打印工艺成型的可打印时间段)从140分钟(0% TiO₂)降低到90分钟(1.5% TiO₂)。因此,掺入“高”含量的纳米TiO₂(例如,>1 wt.%)有利于可施工性,但需要更快的3DP工艺。采用约0.75 - 1.00%的纳米TiO₂含量可能是一个有趣的选择,因为与对照混合料相比,它使浆体的可打印性降低了30分钟,但允许打印24层(比普通砂浆高118%)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d57/9182311/4b7a0c1f0d94/materials-15-03896-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d57/9182311/2014768981d0/materials-15-03896-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d57/9182311/4b7a0c1f0d94/materials-15-03896-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d57/9182311/75d3a1df10f3/materials-15-03896-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d57/9182311/4b7a0c1f0d94/materials-15-03896-g009.jpg

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