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Hot-wire arc additive manufacturing of aluminum alloy with reduced porosity and high deposition rate

Rui Fu, Shuiyuan Tang, Jiping Lu, Yinan Cui, Zixiang Li, Haorui Zhang, Tianqiu Xu, Zhuo Chen, Changmeng Liu

2020Materials & Design206 citationsDOIOpen Access PDF

Abstract

Wire arc additive manufacturing (WAAM) technology has attracted considerable interest in large-scale metallic components, but porosity and low deposition rate are the two dominating technical challenges in WAAM of aluminum alloy. In order to effectively solve these problems, a novel method of hot-wire arc additive manufacturing is used to fabricate aluminum alloy. Systematic studies are carried out to investigate the formation mechanism of the pores, the macro/microstructures, as well as the mechanical properties of the parts. It is found that the pores were mainly clustered at the inter-layer. With the increase of the hot-wire current, the porosity firstly decreases, then reaches a minimum at 100 A, and afterwards increases progressively. The corresponding density changes from 96.8% at the hot-wire current of 0 A to 99.6% at 100 A. Increasing the current from 0 A to 120 A also leads to the increase of the deposition rate by about 3.5 times, and the gradual increase of the size of equiaxed grain by 1.6 times. The mechanical properties are considerably improved with the decrease of the porosity.

Topics & Concepts

Materials sciencePorosityEquiaxed crystalsAlloyDeposition (geology)MetallurgyAluminiumMicrostructureGrain sizeArc (geometry)Composite materialMechanical engineeringEngineeringBiologySedimentPaleontologyAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesAdditive Manufacturing and 3D Printing Technologies
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