Microstructural Study of Arc Beads in Aluminum Alloy Wires with an Overcurrent Fault

• Published in: Materials Vol. 14; no. 15; p. 4133
• Main Authors: Xu, Xueyan, Yu, Zhijin, Li, Yang, Wang, Weifeng, Xu, Lan
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 24.07.2021; MDPI
• Subjects: Alloying effects; Alloying elements; Alloys; aluminum alloy wires; Aluminum alloys; Aluminum base alloys; arc beads; Beads; Cellular structure; Dendritic structure; Electrical faults; electrical fire; Grain boundaries; Grain size; High temperature; Investigations; Iron; Microstructure; Optical microscopes; Overcurrent; overcurrent fault; Precipitates; Silicon; Spectrum analysis; Thermogravimetry; Wire; United States > US; Germany
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma14154133

To clarify the understanding and analysis of arc molten marks in electrical faults of aluminum alloy wires, this paper simulates overcurrent faults of aluminum alloy wires at currents of 128 A–224 A and uses thermogravimetry-differential scanning calorimetry (TG-DSC), optical microscope (OM), scanning electron microscope (SEM) and X-ray energy spectroscopy (EDS) to characterize the effects of current on the microstructure of arc beads. The results show that there are small and large amounts of Al-Si and Al-Fe binary phases in the metallographic structure of the aluminum alloy wires at the rated current, the grains are fine, and there are no significant grain boundaries. After an overcurrent fault occurs in the wires, a high-temperature arc causes the second phase in the aluminum alloy to disappear, a cellular dendritic metallographic structure appears, the grain boundaries become more well-defined, and composition segregation occurs at the grain boundaries. Using Image-Pro-Plus software to quantify the grain characteristics, the average grain size is found to gradually decrease as the current increases. In addition, by comparing and analyzing the characteristics of arc beads in aluminum wires and aluminum alloy wires under the same conditions, alloying elements are found to have a refining effect on the grain boundaries, and there are coarse precipitates at the grain boundaries in the aluminum wire arc beads.