超声振动铣削非晶合金的试验分析
Experimental analysis of ultrasonic vibration milling of amorphous alloys
非晶合金是一种长程无序,短/中程有序的具有高强度、硬度的新型材料,具有广泛应用前景。但其加工难度较高,加工过程中切削温度高,且刀具磨损严重。本文以非晶合金Vit1(Zr41.2Ti13.8Cu12.5Ni10.0Be22.5)为研究对象,对比传统铣削和超生扭转振动辅助铣削两种加工方式下的切削温度、表面形貌和刀具磨损量进行试验,得出加振动后相同的加工条件下切削温度最大降低31.6%;表面质量提高,刀纹减少;刀具磨损较传统铣削磨损量在相同试验量下由0.4mm降到 0.2mm。
morphous alloy is a kind of long-range disordered, short/medium-range ordered type of new material. It has broad application prospects. But the machining difficulty is high ,the cutting temperature is high during the machining, the tool\'s wear is serious. The research object of this paper is vit1(Zr41.2Ti13.8Cu12.5Ni10.0Be22.5), comparing cutting temperatures, surface quality and tool wear under conventional milling and ultrasonic torsional vibration assisted milling.,it is concluded that after the vibration is applied, the cutting temperature is reduced under the same machining conditions, the maximum reduction is 31.6%; the surface quality is improved, the milling veins is reduced; and the tool wear is reduced to 0.2mm from the wear of 0.4mm under the same experimental load.
刘军杰、王志勇、李申烨、王豆豆
金属切削加工材料科学声学工程
非晶合金超声扭转振动辅助铣削切削温度表面质量刀具磨损
amorphous alloyultrasonic torsional vibration assisted millingcutting temperaturesurface qualitytool wear
刘军杰,王志勇,李申烨,王豆豆.超声振动铣削非晶合金的试验分析[EB/OL].(2018-08-28)[2025-08-02].http://www.paper.edu.cn/releasepaper/content/201808-48.点此复制
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