Numerical Simulation of Ultrasound-Induced Cavitation Bubbling in a Calcium Ferrite Melt

机译：超声诱导的钙铁氧体熔体中的超声诱导空化鼓泡的数值模拟

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Calcium ferrite, as the main bonding phase in the sintering process, greatly influences the property of sintered ore. Ultrasonic vibration has been widely applied to the treatment of metals to improve the properties of metals. In this work, ultrasonic vibration was introduced into the calcium ferrite and numerical simulation was carried out by solving the Rayleigh-Plesset equation to investigate the influence of ultrasonic conditions, including frequency, power and initial radii of cavitation bubbles on the cavitation bubbling behavior in calcium ferrite melt. The results indicated that lower ultrasonic frequency, higher power, and an appropriate initial radius of bubble promotes ultrasonic cavitation.

机译：钙铁氧体，作为烧结过程中的主要粘合相，极大地影响了烧结矿石的性质。超声波振动已广泛应用于金属的处理，以改善金属的性质。在这项工作中，将超声波振动引入铁氧体中，并通过求解瑞利 - Plesset方程来研究超声波条件的影响，包括钙的空化鼓泡行为对空化气泡的频率，功率和初始半径的影响数值模拟铁氧体融化。结果表明，较低的超声波频率，更高的功率和适当的初始气泡半径促使超声波空化。

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《International Symposium on High-Temperature Metallurgical Processing》|2018年|xxiv 887p|共7页
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Ruirui Wei; Xuewei Lv; Mingrui Yang;
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中图分类 TF1-53;
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Numerical simulation; Calcium ferrite; Matlab;

机译：数值模拟;铁氧体;MATLAB;

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Numerical Simulation of Ultrasound-Induced Cavitation Bubbling in a Calcium Ferrite Melt

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