摘要
表面粗糙度作为评价加工质量的关键指标,其控制能力关系到性能一致性与制造成本,且直接影响齿轮在啮合过程中的接触荷载分布与润滑膜形成。文章探究了高精度齿轮磨削加工中的表面粗糙度控制与工艺参数优化,构建了基于磨粒轨迹叠加与响应面分析的粗糙度生成模型,提出了多目标优化策略,并验证了其在实际加工中的有效性,以期为相关人员提供参考。
Surface roughness is a key indicator for evaluating machining quality,and its control ability is related to performance consistency and manufacturing cost,and directly affects the contact load distribution and lubrication film formation of gears during meshing process.The article explores the surface roughness control and process parameter optimization in high-precision gear grinding,constructs a roughness generation model based on abrasive trajectory superposition and response surface analysis,proposes a multi-objective optimization strategy,and verifies its effectiveness in actual machining,in order to provide reference for relevant personnel.
作者
潘敦旺
刘青林
PAN Dunwang;LIU Qinglin
出处
《今日自动化》
2025年第6期61-63,共3页
Automation Today
关键词
高精度齿轮
磨削加工
表面粗糙度
工艺参数优化
多目标建模
high-precision gears
grinding processing
surface roughness
optimization of process parameters
multi objective modeling
