%0 Journal Article
%T 基于超声振动辅助车削的建模与仿真研究
Modeling and Simulation Research Based on Ultrasonic Vibration Assisted Turning
%A 钱兆峰
%A 王艳
%J Modeling and Simulation
%P 1512-1522
%@ 2324-870X
%D 2023
%I Hans Publishing
%R 10.12677/MOS.2023.122141
%X 超声振动辅助车削相对于传统车削加工有提高车削效率、提高刀具使用寿命、提高材料加工表面完整性等优点。本文分析了车削加工中的振动机理,阐述了超声振动对传统车削加工的影响,同时以钛合金(TC4)为研究对象,基于振动学理论,建立了一种表征传统车削振动系统的解析模型,并使用ABAQUS软件建立了二维车削有限元切削仿真模型,开展了传统车削与超声振动辅助车削两种工艺的TC4切削仿真模拟。仿真结果表明,当超声振幅在4 μm~12 μm内时,超声振动辅助车削加工相较于传统车削加工,刀具受到的径向力下降了11.4%~20%,TC4加工表面最大压应力下降了7.8%~19.4%,且加工表面压应力和径向力均随着超声振幅的提高而下降。
Compared with traditional turning, ultrasonic vibration assisted turning has the advantages of im-proving turning efficiency, improving tool life and improving surface integrity of material pro-cessing. In this paper, the vibration mechanism in turning is analyzed, and the influence of ultra-sonic vibration on traditional turning is expounded. At the same time, taking titanium alloy (TC4) as the research object, an analytical model characterizing the vibration system of traditional turning is established based on the theory of vibration. The two-dimensional turning finite element cutting simulation model is established by using ABAQUS software, and the TC4 cutting simulation of tradi-tional turning and ultrasonic vibration assisted turning is carried out. The simulation results show that when the ultrasonic amplitude is within 4 μm~12 μm, compared with the traditional turning, the radial force of the tool is reduced by 11.4%~20%, and the maximum compressive stress of the TC4 machined surface is reduced by 7.8%~19.4%. The surface compressive stress and radial force decrease with the increase of ultrasonic amplitude.
%K 车削,钛合金(TC4),超声振动,ABAQUS;Turning
%K Titanium Alloy (TC4)
%K Ultrasonic Vibration
%K ABAQUS
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=63160