Modeling and Simulation of Machining Track of Internal Thread Cutting

PANG Di; JIN Chengzhe; WANG Shuli; ZHANG Ying; CAI Ying

doi:10.16080/j.issn1671–833x.2019.20.092

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Modeling and Simulation of Machining Track of Internal Thread Cutting

更新时间：2025-10-30

- Modeling and Simulation of Machining Track of Internal Thread Cutting
- Aeronautical Manufacturing Technology Vol. 62, Issue 20, Pages: 92-101(2019)
- 作者机构：
  
  1. 沈阳理工大学机械工程学院,沈阳,110159
  2. 内蒙古北方重工业集团有限公司,包头,014030
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671–833x.2019.20.092
  CLC：
- Published：2019
- 稿件说明：
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逄迪，金成哲，王书利，张莹，蔡瑛. 内螺纹铣削加工轨迹建模及仿真[J]. 航空制造技术, 2019, 62(20): 92-101.

PANG Di, JIN Chengzhe, WANG Shuli, ZHANG Ying, CAI Ying. Modeling and Simulation of Machining Track of Internal Thread Cutting. Aeronautical Manufacturing Technology, 2019, 62(20): 92-101.
逄迪，金成哲，王书利，张莹，蔡瑛. 内螺纹铣削加工轨迹建模及仿真[J]. 航空制造技术, 2019, 62(20): 92-101. DOI： 10.16080/j.issn1671–833x.2019.20.092.

PANG Di, JIN Chengzhe, WANG Shuli, ZHANG Ying, CAI Ying. Modeling and Simulation of Machining Track of Internal Thread Cutting. Aeronautical Manufacturing Technology, 2019, 62(20): 92-101. DOI： 10.16080/j.issn1671–833x.2019.20.092.

摘要

铣削加工大直径内螺纹零件时，往往会由于选取不当的铣刀直径和切削参数，引起切削后工件表面形状误差较大、加工精度较低等问题。刀具直径与切削参数不同程度地影响着刀具轨迹，从而进一步影响着已加工表面的理论粗糙度。因此，研究刀具直径与切削参数对刀具轨迹的影响并进行理论分析具有重要意义。一方面，运用齐次坐标变换方法建立刀具轨迹矩阵方程，并根据不同的参考对象建立两种切削刃上一点轨迹的矩阵方程。另一方面，采用单因素试验法选取不同刀具直径与切削参数进行加工轨迹仿真。研究表明，随着铣刀直径、铣刀转速和铣刀齿数的增大，理论粗糙度降低，使已加工的刀具表面不断接近理想光滑表面。

Abstract

When milling large diameter internal thread parts

it is often due to the selection of improper milling cutter diameter and cutting parameters

resulting in after cutting

the surface shape error of the workpiece is large and the machining accuracy is low and other situations. Tool diameter and cutting parameters affect tool path to different degrees. Thus the theoretical roughness of the machined surface is further affected. Therefore

it is of great importance to study and theoretically analyze the influence of tool diameter and cutting parameters on tool path. On the one hand

the tool path matrix equation is set up by using the homogeneous coordinate transformation method. According to different reference objects

the matrix equations of two kinds of point trajectories on cutting edges are established. On the other hand

single factor test method is used to select different tool diameters and cutting parameters for machining trajectory simulation. The results show that with the increase of milling cutter diameter

milling cutter speed and the number of milling cutter teeth

the theoretical roughness decreases

making the machined surface close to the ideal smooth surface.

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