Powder-bed 3D printing by selective activation of magnesium phosphate cement: Determining significant processing parameters and their effect on mechanical strength

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS
Farid Salari , Andrea Zocca , Paolo Bosetti , Petr Hlaváček , Antonino Italiano , Filippo Gobbin , Paolo Colombo , Hans-Carsten Kühne , Vincenzo M. Sglavo
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Abstract

The present work addresses powder bed binder jetting additive manufacturing by selective magnesium phosphate cement activation. Despite the potential of this technology to aid the digitalization of the construction industry, the effect of processing parameters on the mechanical performance of printed materials has not yet been studied to generate a guideline for the further development of the technology. Statistical methodologies were used to screen the effect of four printing process parameters (printing speed, layer thickness, raster angle, and build direction on flexural and compressive strength). As the exploited technology works with constant fluid pressure, the physical interpretation of the effect of each factor can be considered taking into account the interactions between the binder materials in the powder bed. Analysis of variance (ANOVA) indicated that printing speed and layer thickness significantly affect mechanical performances. Furthermore, the layout of samples for the printing process is preferable to be parallel the printhead movement. An anisotropic behavior was observed, and the samples subjected to compressive forces parallel to the layer plane possessed lower strength values. This effect can be interpreted as a result of a weak area of low density in between layers, leading to a pronounced delamination under compression.

Even though the strength of the printed material is not suitable for a structural concrete, it can be marginally improved by design of experiment and optimized for non-structural applications, such as for porous artificial stone. Design of experiment coupled with ANOVA methods can be used in the future to support the development of novel material mixtures, thus expanding the fields of application of this novel additive manufacturing technology.

Abstract Image

通过选择性活化磷酸镁水泥进行粉末床三维打印:确定重要加工参数及其对机械强度的影响
本研究通过选择性磷酸镁水泥活化来解决粉末床粘结剂喷射增材制造问题。尽管该技术具有帮助建筑行业实现数字化的潜力,但尚未研究加工参数对打印材料机械性能的影响,从而为该技术的进一步发展提供指导。我们采用统计方法筛选了四个印刷工艺参数(印刷速度、层厚、光栅角度和构建方向对抗弯强度和抗压强度的影响)。由于所采用的技术是在恒定的流体压力下工作的,因此在对每个因素的影响进行物理解释时,可以考虑到粉末床中粘合剂材料之间的相互作用。方差分析(ANOVA)表明,印刷速度和层厚度对机械性能有显著影响。此外,打印过程中样品的布局最好与打印头的运动平行。观察到各向异性的行为,受到与层平面平行的压缩力的样品强度值较低。尽管打印材料的强度不适用于结构混凝土,但可以通过实验设计略微提高其强度,并将其优化用于非结构应用,如多孔人造石。实验设计与方差分析方法可用于支持新型材料混合物的开发,从而拓展这种新型增材制造技术的应用领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Open Ceramics
Open Ceramics Materials Science-Materials Chemistry
CiteScore
4.20
自引率
0.00%
发文量
102
审稿时长
67 days
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