Cavitation-induced particle engulfment via enhancing particle-interface interaction in solidification

Kai Zhao; Xinchen  Li; Xiangting  Liu; Enyu Guo; Huijun Kang; Zhigang  Hao; Jiehua LI; Yubo Zhang; Zongning Chen; Tongmin Wang

doi:10.1016/j.ultsonch.2024.106801

Cavitation-induced particle engulfment via enhancing particle-interface interaction in solidification

Kai Zhao, Xinchen Li, Xiangting Liu, Enyu Guo, Huijun Kang, Zhigang Hao, Jiehua LI, Yubo Zhang, Zongning Chen, Tongmin Wang

Lehrstuhl für Gießereikunde (330)

Dalian University of Technology, Dalian

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Begutachtung

Abstract

Particle engulfment plays a vital role in the application of particulate reinforced metal matrix composites fabricated by ingot metallurgy. During solidification, particles are nevertheless pushed by an advancing front. As a model system, TiB2p/Al composites were used to investigate the particle engulfment facilitated by acoustic cavitation. The implosion of bubbles drives the particles plunging towards the solid/liquid interface, which increases the engulfment probability. The secondary dendrite arms are refined from 271.2 μm to 98.0 μm as a result of the forced movements of TiB2 particles. Owing to the particle engulfment and dendrite refinement, the composite with ultrasound vibration treatment shows a more rapid work-hardening rate and higher strength.

Originalsprache	Englisch
Aufsatznummer	106801
Seitenumfang	10
Fachzeitschrift	Ultrasonics sonochemistry
Jahrgang	103.2024
Ausgabenummer	February
Frühes Online-Datum	8 Feb. 2024
DOIs	https://doi.org/10.1016/j.ultsonch.2024.106801
Publikationsstatus	Veröffentlicht - Feb. 2024

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© 2024 The Authors

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10.1016/j.ultsonch.2024.106801

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abstract = "Particle engulfment plays a vital role in the application of particulate reinforced metal matrix composites fabricated by ingot metallurgy. During solidification, particles are nevertheless pushed by an advancing front. As a model system, TiB2p/Al composites were used to investigate the particle engulfment facilitated by acoustic cavitation. The implosion of bubbles drives the particles plunging towards the solid/liquid interface, which increases the engulfment probability. The secondary dendrite arms are refined from 271.2 μm to 98.0 μm as a result of the forced movements of TiB2 particles. Owing to the particle engulfment and dendrite refinement, the composite with ultrasound vibration treatment shows a more rapid work-hardening rate and higher strength.",

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author = "Kai Zhao and Xinchen Li and Xiangting Liu and Enyu Guo and Huijun Kang and Zhigang Hao and Jiehua LI and Yubo Zhang and Zongning Chen and Tongmin Wang",

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AU - Zhao, Kai

AU - Li, Xinchen

AU - Liu, Xiangting

AU - Guo, Enyu

AU - Kang, Huijun

AU - Hao, Zhigang

AU - LI, Jiehua

AU - Zhang, Yubo

AU - Chen, Zongning

AU - Wang, Tongmin

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AB - Particle engulfment plays a vital role in the application of particulate reinforced metal matrix composites fabricated by ingot metallurgy. During solidification, particles are nevertheless pushed by an advancing front. As a model system, TiB2p/Al composites were used to investigate the particle engulfment facilitated by acoustic cavitation. The implosion of bubbles drives the particles plunging towards the solid/liquid interface, which increases the engulfment probability. The secondary dendrite arms are refined from 271.2 μm to 98.0 μm as a result of the forced movements of TiB2 particles. Owing to the particle engulfment and dendrite refinement, the composite with ultrasound vibration treatment shows a more rapid work-hardening rate and higher strength.

KW - Metal matrix composites

KW - Particle dispersion

KW - Ultrasonic vibration

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