Layered Manufacturing of Nanocrystalline Copper Parts Using Pulse Jet Electrodeposition and its Mechanical Properties

A new type of layered manufacturing technology that combines the jet electrodeposition method and a rapid prototyping concept is presented. The manufacturing method adopts multilayer scanning electrodeposition using an electrolyte jet to fabricate a micro-metallic part with a nanocrystalline microst...

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Veröffentlicht in:	International journal of electrochemical science 2020-09, Vol.15 (9), p.8584-8594
Hauptverfasser:	Fan, Hui, Zhao, Yangpei, Jiang, Jie, Wang, Shankui, Li, Zhijing
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Sprache:	eng
Schlagworte:	copper parts jet electrodeposition Layered manufacturing nancrystalline material
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container_end_page	8594
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container_title	International journal of electrochemical science
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creator	Fan, Hui Zhao, Yangpei Jiang, Jie Wang, Shankui Li, Zhijing
description	A new type of layered manufacturing technology that combines the jet electrodeposition method and a rapid prototyping concept is presented. The manufacturing method adopts multilayer scanning electrodeposition using an electrolyte jet to fabricate a micro-metallic part with a nanocrystalline microstructure, which simplifies three-dimensional processing. The research results showed that key parameters, including the current density, applied voltage, nozzle diameter and jet speed, impacted the forming process and deposition quality. The effective current density was observed to reach 350 A/dm2, at which point nanocrystalline grains with sizes from 30-50 nm were obtained. It was found that the application of an optimized applied voltage, nozzle diameter, current density and jet velocity increased the forming speed and improved the mechanical performance of the finished parts. A group of nanocrystalline copper parts with a good shape and mechanical properties was produced using optimized parameters with the jet electrodeposition method.
doi_str_mv	10.20964/2020.09.81
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The manufacturing method adopts multilayer scanning electrodeposition using an electrolyte jet to fabricate a micro-metallic part with a nanocrystalline microstructure, which simplifies three-dimensional processing. The research results showed that key parameters, including the current density, applied voltage, nozzle diameter and jet speed, impacted the forming process and deposition quality. The effective current density was observed to reach 350 A/dm2, at which point nanocrystalline grains with sizes from 30-50 nm were obtained. It was found that the application of an optimized applied voltage, nozzle diameter, current density and jet velocity increased the forming speed and improved the mechanical performance of the finished parts. 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The manufacturing method adopts multilayer scanning electrodeposition using an electrolyte jet to fabricate a micro-metallic part with a nanocrystalline microstructure, which simplifies three-dimensional processing. The research results showed that key parameters, including the current density, applied voltage, nozzle diameter and jet speed, impacted the forming process and deposition quality. The effective current density was observed to reach 350 A/dm2, at which point nanocrystalline grains with sizes from 30-50 nm were obtained. It was found that the application of an optimized applied voltage, nozzle diameter, current density and jet velocity increased the forming speed and improved the mechanical performance of the finished parts. 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subjects	copper parts jet electrodeposition Layered manufacturing nancrystalline material
title	Layered Manufacturing of Nanocrystalline Copper Parts Using Pulse Jet Electrodeposition and its Mechanical Properties
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