Reducing porosity and refining grains for arc additive manufacturing aluminum alloy by adjusting arc pulse frequency and current

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Abstract

Coarse grains and gas pores are two main problems that limit the application of additive manufacturing aluminum alloys. To reduce porosity and refine grains, this paper presents a quantitative investigation into the effect of pulse frequency and arc current on the porosity and grains of arc additive manufacturing Al-5Si alloy. The experiment results show that pulse frequency and arc current have a significant impact on the macrostructure, microstructure, porosity, and tensile properties of the samples. Fine grains and a uniform microstructure can be obtained with low pulse frequency and low arc current as a result of the rapid cooling of the molten pool. With the increase of pulse frequency, density shows a trend that firstly escalates and attains the maximum value at 50 Hz, but later declines as a result of the relation between pores formation and gas escape. Moreover, better tensile properties can be obtained at low pulse frequency and low arc current because of the finer grains.

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Wang, D., Lu, J., Tang, S., Yu, L., Fan, H., Ji, L., & Liu, C. (2018). Reducing porosity and refining grains for arc additive manufacturing aluminum alloy by adjusting arc pulse frequency and current. Materials, 11(8). https://doi.org/10.3390/ma11081344

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