用于在直接墨水书写中即时调整多组分材料成分的主动式混合喷头

IF 4.2 Q2 ENGINEERING, MANUFACTURING
Simon Teves , Tobias Biermann , Arved Ziebehl , Jan Gerrit Eckert , Ole Hill , Panpan Xia , Merve Wollweber , Tammo Ripken , Nadja C. Bigall , Roland Lachmayer
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引用次数: 0

摘要

多材料增材制造(MMAM)可实现材料性能的分级以及打印部件功能的集成。虽然大多数多材料增材制造方法仅限于加工单组分或预混合的多组分材料,但多组分材料的加工过程中混合和挤压可实现创新的材料特性和使用案例。在加工液态多组分材料时,需要在加工过程中均化各个组分流,但传统的被动混合所需的体积阻碍了材料成分的快速转换。本文介绍了一种双组分喷头,它将主动混合方法与第三种添加剂的连续成分调整相结合。控制混合成分的方法是,在挤出点附近合并各个材料流之前,影响它们的流体动力平衡。喷头的功能在混合均匀度和材料成分之间的转换速度方面得到了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Active-mixing printhead for on-the-fly composition adjustment of multi component materials in Direct Ink Writing

Multi-Material Additive Manufacturing (MMAM) enables the grading of material properties and the integration of functions within printed parts. While most MMAM methods are limited to process single-component or pre-mixed multi-component materials, the in-process mixing and extrusion of multi-component materials enables innovative material properties and use cases. When processing liquid multi-component materials, the individual component streams need to be homogenized in-process, but the required volume in conventional passive mixing hinders rapid transitions in material composition. In this paper, a two component printhead is presented which combines an active mixing approach with a continuous composition adjustment for a third additive. The approach to control the mixing composition is to influence the hydrodynamic equilibrium of individual material streams before merging them near the point of extrusion. The printhead’s functionality is verified in terms of mixing homogeneity and transition speed between material compositions.

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来源期刊
Additive manufacturing letters
Additive manufacturing letters Materials Science (General), Industrial and Manufacturing Engineering, Mechanics of Materials
CiteScore
3.70
自引率
0.00%
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审稿时长
37 days
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