Mirza Imširović (Author), Uroš Trdan (Author), Damjan Klobčar (Author), Drago Bračun (Author), Aleš Nagode (Author), Laurent Berthe (Author)

Abstract

This study introduces an innovative approach of incorporating in-situ vibrations into Directed Energy Deposition (DED) process, utilizing aluminium 5356 wire, a welding arc heat source, and an electromagnetic vibration system. The findings underscore the method’s efficacy in mitigating defects of aluminium 5356 alloy fabricated part. Specifically, the anisotropic distribution of residual stress was reduced by 60%, leading to improved structural integrity. Moreover, the application of in-situ vibrations resulted in a marked reduction in surface waviness, thereby enhancing surface quality and increasing the building efficiency factor by 14% (from 78.5% to 92.25%). Gas porosity was substantially decreased, with a reduction from 1.5 ± 0.04% in as-built parts (AB) to 0.34 ± 0.07% in vibration-assisted (VA) parts. A notable 25% reduction in grain size was observed. The synergistic effect of vibrations and lower interpass temperatures effectively influenced the solidification kinetics, reducing microstructural anisotropy by eliminating characteristic columnar growth and promoting the formation of equiaxed grains. Tensile tests confirmed elimination of anisotropy in strength, with the ultimate tensile strength deviation between the x and z directions of less than 0.4% for VA samples, compared to 7.9% for AB samples. Analysis of secondary phases confirmed a homogenisation effect, evidenced by a lower segregation rate and more finely dispersed peaks of magnesium and iron-enriched precipitates in the VA samples compared to the AB ones (3.57 ± 3.42 μm$^2$ vs. 11.28 ± 12.49 μm$^2$). These results highlight the substantial potential of vibration-assisted DED in improving the properties of manufactured parts.

Keywords

directed energy deposition (DED);in situ vibrations;residual stress reduction;surface quality improvement;gas porosity reduction;grain refinement;wire arc additive manufacturing;residual stresses;microstructure;homogenisation;

Data

Language: English
Year of publishing:
Typology: 1.01 - Original Scientific Article
Organization: UL FS - Faculty of Mechanical Engineering
UDC: 620.1:669.715
COBISS: 209073667 Link will open in a new window
ISSN: 2238-7854
Views: 554
Downloads: 162
Average score: 0 (0 votes)
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Other data

Secondary language: Slovenian
Secondary keywords: usmerjeno nanašanje energije;in ​​situ vibracije;zmanjšanje zaostalih napetosti;izboljšanje kakovosti površine;zmanjšanje poroznosti plina;rafiniranje zrn;oblikovno navarjanje;zaostale napetosti;mikrostruktura;homogenizacija;
Type (COBISS): Article
Pages: str. 1581–1599
Issue: ǂVol. ǂ33
Chronology: Nov.–Dec. 2024
DOI: 10.1016/j.jmrt.2024.09.179
ID: 25142531
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