高速铣削系统稳定性动态优化新方法

摘要

考虑铣削过程中的自激振动和强迫振动,基于延迟微分方程的稳定性判定准则和强迫振动共振区的半带宽理论,提出一种铣削系统稳定性动态优化新方法.该方法通过选择切削参数和修改系统结构参数,在保证加工表面精度的前提下,获得大的稳定性材料去除率.其目标函数是材料去除率,约束条件是铣削过程稳定且非共振,动态优化变量是铣削系统的切削参数和结构参数.优化程序被阐明,实例分析结果显示,系统在稳定非共振条件下,加工时的材料去除率相比于优化前提高了18.86%.另外,为获得最大的稳定材料去除率和较好的表面精度,在铣削系统优化过程中,应同时考虑颤振稳定性和共振的影响.%Considering the self-excited and forced vibrations in high-speed milling processes, a novel method for dynamic optimization of system stability is used to determine the cutting parameters and structural parameters by increasing the chatter free material removal rate (CF-MRR) and surface finish. The method is based on the theory of the chatter stability and the semi-bandwidth of the resonant region. The objective function of the method is material removal rate(MRR),the constraints are chatter stability and surface finish, and the optimizing variables are cutting and structural parameters. The optimization procedure is stated. The method is applied to a milling system and CF-MRR is increased 18.86%. It is shown that the influences of the chatter stability and the resonance are simultaneously considered in the dynamic optimization of the milling system for increasing CF-MRR and the surface finish.