基于表面形貌仿真模型的球头铣削参数多目标优化
2018-07-16
作者:石文浩1,2,张松1,2,李剑峰1,2,李刚1,2
单位:1山东大学;2高效洁净机械制造教育部重点试验室
摘要:切削参数的选择对铣削加工的表面质量影响较大,在保证加工效率的前提下提高球头铣削加工的表面质量具有重要的意义。采用数学建模的方式,建立基于响应曲面法的球头铣削三维表面形貌仿真模型,以表面形貌(三维表面形貌算数平均偏差)Sba作为衡量表面质量的技术指标,分析各切削参数对其影响规律,并结合加工效率数学模型,多目标优化切削参数。研究表明,在保证其它加工条件不变的前提下,三维表面形貌的算术平均偏差与每齿进给量fz和径向切深ae呈正相关关系,而切削速度vc和轴向切深ap的影响不显著。优化后的5组切削参数在表面形貌和加工效率方面都有较好表现。
关键词:表面形貌;加工效率;球头铣削;仿真预测模型;响应曲面法优化
中图分类号:TG506;TH161文献标志码:A
MultiObjectives Optimization of Cutting Parameters in BallNose Milling Based on Surface Topography Simulation Model
Shi Wenhao,Zhang Song,Li Jianfeng,Li Gang
Abstract:The surface quality of milling is directly affected by the selection of cutting parameters.To improve the surface quality of ballnose milling under the constant processing efficiency condition is significative in engineering field.A surface topography simulation model in ballnose milling based on Response Surface Methodology (RSM) is built with the use of mathematical modeling.In this paper,the influence rule between cutting parameters and surface topography is analyzed.Combined with the mathematical model of processing efficiency,the multiobjectives optimization is taken.This research is indicated that feed per tooth and radial depth of cut have great significant influence on the surface topography,but the other two parameters,cutting speed and axial depth of cut are insignificant.The 5 groups of optimal cutting parameters have good performance both in the two aims.
Keywords:surface topography;processing efficiency;ballnose milling;simulation predictive model; optimization based on RSM