Influence of thermo-hygrometric conditions on the interface bond in 3D printed concrete

IF 3.4 3区 工程技术 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Materials and Structures Pub Date : 2024-11-18 DOI:10.1617/s11527-024-02522-8
M. Taleb, D. Bulteel, A. Montagne, F. Roudet, S. Rémond, D. Chicot
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Abstract

For the additive manufacturing in civil engineering, the cementitious ink must have contradictory properties to be printable, indeed it must be initially fluid enough to be pumpable and extrudable, and also should stiffen quickly after deposition to be buildable. These can influence the mechanical properties and the behavior of the printed structure. This work is focused on the role of the printing conditions, mainly time gap between successive layers and environmental conditions, on the quality of the interface between printed layers. The mechanical properties of the interface were studied by means of classical and instrumented indentation tests at micro and macroscopic scales jointly to bidirectional macro compression tests. In addition to the macrohardness tests, microindentation allows to study the role of the interface at a local scale by applying the interfacial weakness criterion based on a hardness profile established on a cross-section in the neighborhood to the plane of the interface. The influence of the printing conditions on the mechanical behavior of the interface is clearly highlighted. As an example, this criterion shows a degradation of the interface property with an increase in the time gap between layers in addition to the influence of the thermo-hygrometric conditions. For a better understanding of the mechanical behavior at the interface, additional instrumented indentation tests in the plane of the interface using macro-loads are carried out until the rupture. The critical load of fracture confirms the role of the printing conditions, whereas the compression tests are not able to show significant differences between the elaboration conditions. The indentation test, which is not widespread in the field of civil engineering, proves here that it can be very useful for a finest mechanical characterization of the material, especially for the characterization of the interface at a local scale.

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热对称条件对 3D 打印混凝土界面粘接的影响
对于土木工程中的快速成型技术而言,水泥基油墨必须具有相互矛盾的特性,才能实现可印刷性。事实上,水泥基油墨最初必须具有足够的流动性,以便于泵送和挤出,同时还必须在沉积后迅速变硬,以便于建造。这些都会影响印刷结构的机械性能和行为。这项研究的重点是印刷条件(主要是连续层之间的时间间隔和环境条件)对印刷层之间界面质量的影响。通过微观和宏观尺度的传统和仪器压痕测试,以及双向宏观压缩测试,对界面的机械性能进行了研究。除了宏观硬度测试外,微观压痕测试还可以根据在界面平面附近的横截面上建立的硬度曲线,应用界面强度标准来研究界面在局部尺度上的作用。印刷条件对界面机械行为的影响清晰可见。例如,随着层间时间间隔的增加,除了热压条件的影响外,该标准还显示出界面性能的下降。为了更好地了解界面的机械行为,还在界面平面上进行了额外的仪器压痕测试,使用宏观载荷直至断裂。断裂的临界载荷证实了印刷条件的作用,而压缩试验则无法显示出不同加工条件之间的显著差异。压痕试验在土木工程领域并不普遍,但在此证明,它对材料的精细机械特性,尤其是局部界面的特性非常有用。
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来源期刊
Materials and Structures
Materials and Structures 工程技术-材料科学:综合
CiteScore
6.40
自引率
7.90%
发文量
222
审稿时长
5.9 months
期刊介绍: Materials and Structures, the flagship publication of the International Union of Laboratories and Experts in Construction Materials, Systems and Structures (RILEM), provides a unique international and interdisciplinary forum for new research findings on the performance of construction materials. A leader in cutting-edge research, the journal is dedicated to the publication of high quality papers examining the fundamental properties of building materials, their characterization and processing techniques, modeling, standardization of test methods, and the application of research results in building and civil engineering. Materials and Structures also publishes comprehensive reports prepared by the RILEM’s technical committees.
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