Nonlinear Error Optimization Method for Dual Five-Axis Mirror Milling Machining

LIN Jun; CAO Zhenzhen; LI Junli; LIU Gang

doi:10.16080/j.issn1671-833x.2025.08.105

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Nonlinear Error Optimization Method for Dual Five-Axis Mirror Milling Machining

更新时间：2026-03-27

- Nonlinear Error Optimization Method for Dual Five-Axis Mirror Milling Machining
- Aeronautical Manufacturing Technology Vol. 68, Issue 8, Pages: 105-112(2025)
- 作者机构：
  
  1. 上海工程技术大学,上海,201620
  2. 成都永峰科技有限公司,成都,610511
  3. 成都智远先进制造技术研究院,成都,610511
  4. 上海交通大学四川研究院,成都,610213
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2025.08.105
  CLC：
- Published：2025
- 稿件说明：
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林俊，曹珍珍，李军利，刘钢. 双五轴镜像铣削加工非线性误差优化方法[J]. 航空制造技术, 2025, 68(8): 105-112,129.

LIN Jun, CAO Zhenzhen, LI Junli, LIU Gang. Nonlinear Error Optimization Method for Dual Five-Axis Mirror Milling Machining[J]. Aeronautical Manufacturing Technology, 2025, 68(8): 105-112,129.
林俊，曹珍珍，李军利，刘钢. 双五轴镜像铣削加工非线性误差优化方法[J]. 航空制造技术, 2025, 68(8): 105-112,129. DOI： 10.16080/j.issn1671-833x.2025.08.105.

LIN Jun, CAO Zhenzhen, LI Junli, LIU Gang. Nonlinear Error Optimization Method for Dual Five-Axis Mirror Milling Machining[J]. Aeronautical Manufacturing Technology, 2025, 68(8): 105-112,129. DOI： 10.16080/j.issn1671-833x.2025.08.105.

摘要

针对航空薄壁件镜像铣削加工中，由于旋转轴线性插补，使得刀轴矢量偏离理论平面而引起的非线性误差问题，提出了一种适用于镜像铣削加工的旋转轴低波动插补刀轴矢量方法，以对非线性误差进行优化。首先，建立了镜像铣机床运动链模型和非线性误差模型，得到非线性误差与机床旋转轴运动正相关关系；然后，基于机床运动学，以非线性误差约束和旋转轴角速度约束确定优化区间；最后，对非线性误差最小面线性预插补刀轴矢量，拟合预插补矢量对应离散旋转轴角度点，在非线性误差许可范围内，选择满足镜像铣加工的插补刀轴矢量。经过仿真和试验，最大非线性误差降低73.18%，整体壁厚误差降低68.24%，加工完整路径时间缩减4.39%，有效验证本文所提方法的可行性。

Abstract

Aiming at the nonlinear error problem caused by linear interpolation of rotation axis and tool axis vector deviation from the theoretical plane in the mirror milling of aviation thin-walled parts

a low-fluctuation interpolation tool axis vector method of rotation axis suitable for mirror milling was proposed to optimize the nonlinear error. Firstly

the motion chain model and nonlinear error model of mirror milling machine tool were established

and the positive correlation between nonlinear error and the motion of the rotation axis of the machine tool was obtained. Then

based on the kinematics of the machine tool

the optimization interval was determined by the nonlinear error constraint and the angular velocity constraint of the axis of rotation. Finally

for the pre-interpolated tool axis vector of the minimum surface of nonlinear error

the pre-interpolation vector corresponds to the discrete rotation axis angle point

and the interpolated tool axis vector satisfying the mirror milling was determined within the allowable range of nonlinear error. After simulation and experiment

the maximum nonlinearity error is reduced by 73.18%

the overall wall thickness error is reduced by 68.24%

and the processing path time is reduced by 4.39%

which effectively verifies the feasibility of the proposed method.

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