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超声振动珩磨单空化泡溃灭温度研究
引用本文:张小强,祝锡晶,王建青. 超声振动珩磨单空化泡溃灭温度研究[J]. 中国机械工程, 2016, 27(6): 796-800
作者姓名:张小强  祝锡晶  王建青
作者单位:中北大学,太原,030051
基金项目:国家自然科学基金资助项目(50975265,51275490);山西省青年科技研究基金资助项目(2013011024-5)
摘    要:为了研究超声振动珩磨作用下的空化效应,基于超声空化动力学和热力学基本定律,建立了超声振动珩磨单空化泡热力学方程;数值模拟了各珩磨参数对空化泡运动半径的影响,间接分析了各参数对单空化泡溃灭温度的影响。结果显示,珩磨参数对空化泡溃灭温度影响微弱,单空化泡的溃灭温度大约为300~1400K;在超声钻床上,以铝箔纸为试验材料进行了超声空化试验,试验结果与理论分析基本一致。

关 键 词:超声振动珩磨  空化  热力学  溃灭温度  

Study on Single Cavitation Bubble Collapse Temperature in Ultrasonic Vibration Honing
Zhang Xiaoqiang,Zhu Xijing,Wang Jianqing. Study on Single Cavitation Bubble Collapse Temperature in Ultrasonic Vibration Honing[J]. China Mechanical Engineering, 2016, 27(6): 796-800
Authors:Zhang Xiaoqiang  Zhu Xijing  Wang Jianqing
Affiliation:North University of China,Taiyuan, 030051
Abstract:In order to investigate the cavitation impacts under ultrasonic vibration honing, the single-cavitation bubble thermodynamics equation was established based on ultrasonic cavitation dynamics and fundamental laws of thermodynamics. Numerical simulation was carried out, and the different influences were performed to the bubbles moving radius, when the honing parameters changed. The effects on the bubbles collapse temperature were analyzed indirectly. The results demonstrate that the change of parameters is non-significant to the bubbles collapse temperature, and it is about 300~1400K. The process was tried out on ultrasonic drilling machine, with aluminium foil as test material. The test results are agree basically with the theoretical analyses.
Keywords:ultrasonic vibration honing  cavitation  thermodynamics  collapse temperature  
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