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基于材料挤出法制造的用于三维打印的多壁碳纳米管增强活性粉末混凝土的力学性能与孔隙结构

Mechanical Properties and Pore Structure of Multiwalled Carbon Nanotube-Reinforced Reactive Powder Concrete for Three-Dimensional Printing Manufactured by Material Extrusion.

作者信息

Kan Deyuan, Liu Guifeng, Cao Shuang Cindy, Chen Zhengfa, Lyu Qifeng

机构信息

Department of Civil Engineering, Changzhou University, Changzhou, China.

出版信息

3D Print Addit Manuf. 2024 Apr 1;11(2):e675-e687. doi: 10.1089/3dp.2022.0243. Epub 2024 Apr 16.

Abstract

Three-dimensional (3D) concrete printing technology has been considered promising, attracting extensive attention in the engineering field. Multiwalled carbon nanotubes (MWCNTs) have been used as an additive to reinforce the cement-based material. However, the research on the 3D printed MWCNT-reinforced high-strength concrete is rare. This research is to study the mechanical properties and pore structure of MWCNT-reinforced reactive powder concrete (RPC) for 3D printing. In this research, the workability of the printed RPC mixture with MWCNTs was first tested to pass the criteria of 3D printing. Then, the enhancement effect of MWCNTs on the printed RPC was tested by mechanical properties after hardening. Meanwhile, strength-displacement curves were recorded. In addition, the pore structures of printed RPC were observed and analyzed by X-ray computed tomography (CT) images. The results show that 0.05 wt% MWCNTs have no effect on the workability of the printable RPC slurry. MWCNTs could enhance the mechanical properties of the printed RPC by filling the flaws inside the samples, increasing the viscosity of the RPC slurry and forming bridges between cracks. Besides, 0.05 wt% MWCNTs may cause the failure mode of the printed RPC from brittle failure to ductile failure. In addition, MWCNTs significantly reduced the porosity of the printed RPC by decreasing pores with a volume over 0.01 mm. As CT images show, the interlayer zone (IZ) of the 3D printed RPC sample is prone to pores, and a higher volume fraction is evident. In particular, within the volume of IZs, the minimum volume fraction at the IZ of 3D printed RPC appears on sample with MWCNTs.

摘要

三维(3D)混凝土打印技术被认为具有广阔前景,在工程领域引起了广泛关注。多壁碳纳米管(MWCNTs)已被用作增强水泥基材料的添加剂。然而,关于3D打印的MWCNT增强高强度混凝土的研究却很少。本研究旨在研究用于3D打印的MWCNT增强活性粉末混凝土(RPC)的力学性能和孔隙结构。在本研究中,首先测试了含MWCNTs的打印RPC混合物的工作性能,以使其符合3D打印的标准。然后,通过硬化后的力学性能测试了MWCNTs对打印RPC的增强效果。同时,记录了强度-位移曲线。此外,通过X射线计算机断层扫描(CT)图像观察和分析了打印RPC的孔隙结构。结果表明,0.05 wt%的MWCNTs对可打印RPC浆料的工作性能没有影响。MWCNTs可以通过填充样品内部的缺陷、增加RPC浆料的粘度以及在裂缝之间形成桥梁来提高打印RPC的力学性能。此外,0.05 wt%的MWCNTs可能会使打印RPC的破坏模式从脆性破坏转变为延性破坏。此外,MWCNTs通过减少体积超过0.01 mm的孔隙,显著降低了打印RPC的孔隙率。如CT图像所示,3D打印RPC样品的层间区域(IZ)容易出现孔隙,且孔隙率较高。特别是在IZ的体积范围内,3D打印RPC的IZ处最小体积分数出现在含MWCNTs的样品上。

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