Effect of High-Frequency Electric Pulse on the Solidification Microstructure and Properties of Hypoeutectic Al-Si Alloy

Guo, Jianjun; Wang, Fang; Zhang, Shijie; Zhou, Yifan; Zhu, Lin

doi:10.3390/ma17020468

Materials

2024

DOI: 10.3390/ma17020468

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Effect of High-Frequency Electric Pulse on the Solidification Microstructure and Properties of Hypoeutectic Al-Si Alloy

Jianjun Guo,

Fang Wang,

Shijie Zhang

et al.

Abstract: The effects of different pulse frequencies on the microstructure grain size and solid solubility of Al-9Si alloy were systematically investigated using OM, SEM, and EDS. The impact on the mechanical properties of the alloy was analyzed using a micro-Vickers hardness tester and multifunctional friction tester. During solidification, the Al-9Si alloy is exposed to high-frequency electric current pulses with a current density of 300 A/cm2 and frequencies of 0 Hz, 500 Hz, 1000 Hz, and 2000 Hz. The experimental res… Show more

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Cited by 2 publications

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Improving the glass ionomer restoration by Incorporating strontium NPs coated with AuNPs manufactured by laser ablation in liquid

Jaber,

Khashan,

Jamal Abbas

et al. 2024

Inorganic Chemistry Communications

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Improving the glass ionomer restoration by Incorporating strontium NPs coated with AuNPs manufactured by laser ablation in liquid

Jaber,

Khashan,

Jamal Abbas

et al. 2024

Inorganic Chemistry Communications

View full text Add to dashboard Cite

Pressure-Less Liquid-Phase Sintering of Aluminum-Based Materials

Sucgang,

Cuzacq,

Bobet

et al. 2024

JMMP

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Rapid technological advancements and the growing focus on sustainable practices have significantly expanded the potential applications of aluminum (Al) and its alloys, leading to a steady increase in demand over the years. This study investigated the densification of Al and Al-based materials using pressure-less liquid-phase sintering. Samples with 4–20 vol.% AlSi12 sintered at 640 °C for 1 h achieved the highest relative density (RD) and the lowest global porosity (GP) without exhibiting any shape deformation. In general, increasing the amount of sintering aid improves the density of the samples. This was confirmed by microstructural analysis using SEM, which revealed the progression of density—from initial particle coalescence at 4 vol.% AlSi12 to the development of microstructures with filled pores and well-defined grain boundaries at 20 vol.% AlSi12. X-ray diffraction (XRD) analysis also revealed an expanded lattice parameter, with minimal microstrain and a crystallite size closely resembling those of the initial Al powder. Samples with a relative density greater than 90% demonstrated thermal conductivities ranging from 170 to 200 W/mK and an average hardness of 29 HV5. Densification was further enhanced by increasing the compaction pressure from 50 MPa to 100–200 MPa for samples containing 12–20 vol.% AlSi12. The Al-based material compacted at 200 MPa and with 15 vol.% AlSi12 achieved the highest RD of approximately 99%. It exhibited a thermal conductivity of 195 W/mK at 30 °C and 190 W/mK at 70 °C, along with a hardness of 30 HV5.

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Effect of High-Frequency Electric Pulse on the Solidification Microstructure and Properties of Hypoeutectic Al-Si Alloy

Cited by 2 publications

References 34 publications

Improving the glass ionomer restoration by Incorporating strontium NPs coated with AuNPs manufactured by laser ablation in liquid

Improving the glass ionomer restoration by Incorporating strontium NPs coated with AuNPs manufactured by laser ablation in liquid

Pressure-Less Liquid-Phase Sintering of Aluminum-Based Materials

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