使用聚丙烯纤维的印花混凝土宽梁抗弯行为研究

Thi Loan Pham, D. Trinh, Thi-Thu Nguyen, Trong Quang Do, P. Nguyen
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摘要

建筑施工的可持续性是未来建筑项目不可避免的一个方面。通过将三维混凝土打印技术与传统建筑进行比较,可持续发展的合理性得到了高度评价。然而,3D 打印混凝土系统在工业应用中存在局限性和挑战。原因是这种工艺最初用于小型非结构性应用,现在则被用于大型结构。由于有了混凝土打印设备,还可以提供各种各样的腹板框架--这是使用传统模板浇注混凝土完全无法实现的。在这项研究中,大梁腹板是按照桁架梁的样式设计的。印制了三种不同聚丙烯(PP)纤维含量的宽梁,并进行了三点加载试验。该研究报告了破坏模式、承载能力和挠度。研究结果表明,在民用和工业建筑中应用混凝土打印技术是完全可行的。打印工艺成功制作了喷嘴直径为 22 毫米、层高为 10 毫米的模型,确保了打印层之间有足够的附着力。在混凝土抗压强度和梁抗弯强度方面,使用约 0.25% 的 PP 纤维可获得最佳效果,而使用约 1.00% 的 PP 纤维则可增加构件的延展性。虽然破坏模式是脆性的,但梁在断裂前的挠度远远超出了挠性构件的允许挠度值。因此,在建筑中应用印刷构件是可行的。
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Study on flexural behaviour of printed concrete wide beams using polypropylene fibres
Sustainability in building construction is an inevitable aspect of future construction projects. The justification of sustainability is highly appreciated by comparing 3D concrete printing technology with conventional construction. However, the 3D printing concrete system has limitations and challenges in industrial applications. The reason is that this process was initially used in small non-structural applications and is now being adopted for large-scale structures. Thanks to concrete printing machines, a wide variety of web frames are also available - something completely impossible to achieve using traditional formwork for pouring concrete. In this study, the girder web is designed in the style of truss beams. Three wide beams with different amounts of polypropylene (PP) fibre were printed, and 3-point loading tests were conducted. The failure mode, load-bearing capacity, and deflection were reported in this study. According to the results, applying concrete printing technology in civil and industrial construction is entirely feasible. The printing process successfully produced models with a nozzle diameter of 22 mm and layer height of 10 mm, ensuring sufficient adhesion force between the printing layers. Using a PP fibre content of about 0.25% yielded the best results in terms of concrete compressive strength and beams’ flexural strength, while a PP fibre content of about 1.00% tended to increase the ductility of the member. Although the failure mode is brittle, the beams exhibited deflection before fracture far beyond the allowable deflection value of a flexural member. Therefore, the application of printed components to construction is feasible.
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