通过选择性喷射电沉积 (SJED) 有效制造微型物体的新方法

Anand Mohan Pandey, S. Kapil, Manas Das
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摘要

目的选择性喷射电沉积(SJED)是一种新兴的增材制造(AM)技术,用于实现纳米和微米尺寸的金属部件。沉积在基底上的部件会形成冶金结合,因此将它们与基底分离是一个尚未解决的问题。因此,本文旨在提出一种将沉积微型部件与牺牲基底分离的方法。典型的 SJED 工艺包括在机床上加装一个喷嘴(建立电解质柱)(提供基底和喷嘴之间的相对运动),在导电基底上逐个原子沉积材料。研究结果对影响沉积微型部件的层高、层宽和形态的工艺参数进行了全面研究。借助低应用电压和高扫描速度,可实现沉积部件的均匀性。通过实验对平整表面条件进行了多珠分析,当相邻两珠之间的中心距离保持在单珠宽度的一半时,就能实现平整表面条件。此外,将制作好的部件从基底上移除是当前工作的新颖之处。
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A novel method of effectively fabricating the micro-objects by selective jet electrodeposition (SJED)
Purpose Selective jet electrodeposition (SJED) is an emerging additive manufacturing (AM) technology for realizing metallic components of nano and micro sizes. The deposited parts on the substrate form metallurgical bonding, so separating them from the substrate is an unsolved issue. Therefore, this paper aims to propose a method for separating the deposited micro parts from a sacrificial substrate. Furthermore, single and multi-bead optimization is performed to fabricate microparts with varying density. Design/methodology/approach A typical SJED process consists of a nozzle (to establish a column of electrolytes) retrofitted on a machine tool (to provide relative motion between substrate and nozzle) that deposits material atom-by-atom on a conductive substrate. Findings A comprehensive study of process parameters affecting the layer height, layer width and morphology of the deposited micro-parts has been provided. The uniformity in the deposited parts can be achieved with the help of low applied voltage and high scanning speed. Multi-bead analysis for the flat surface condition is experimentally performed, and the flat surface condition is achieved when the centre distance between two adjacent beads is kept at half of the width of a single bead. Originality/value Although several literatures have demonstrated that the SJED process can be used for the fabrication of parts; however, part fabrication through multi-bead optimization is limited. Moreover, the removal of the fabricated part from the substrate is the novelty of the current work.
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