A Low Cost Desktop Electrochemical Metal 3D Printer

材料科学 消耗品 沉积(地质) 电化学 3D打印 电化学电池 电解质 溶解 纳米技术 电极 冶金 化学工程 化学 工程类 物理化学 古生物学 生物 沉积物
作者
Xiaolong Chen,Xinhua Liu,Peter Childs,Nigel P. Brandon,Billy Wu
出处
期刊:Advanced materials and technologies [Wiley]
卷期号:2 (10) 被引量:73
标识
DOI:10.1002/admt.201700148
摘要

Abstract Additive manufacturing (AM), or 3D printing as it is more commonly known, is the process of creating 3D objects from digital models through the sequential deposition of material in layers. Electrochemical 3D printing is a relatively new form of AM that creates metallic structures through electrochemical reduction of metal ions from solutions onto conductive substrates. The advantage of this process is that a wide range of materials and alloys can be deposited under ambient conditions without thermal damage and more importantly at low cost, as this does not require expensive laser optics or inert gas environments. Other advantages include the fact that this process can be both additive and subtractive through reversal of potential allowing for recycling of components through electrochemical dissolution. However, one main limitation of this technology is speed. Here, a novel electrochemical 3D printer design is proposed using a meniscus confinement approach which demonstrates deposition rates three orders of magnitude higher than equivalent systems due to improved mass transport characteristics afforded through a mechanical electrolyte entrainment mechanism. Printed copper structures exhibit a polycrystalline nature, with decreasing the grain size as the potential is increased resulting in a higher Vickers hardness and electronic resistivity.
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