China Mechanical Engineering ›› 2022, Vol. 33 ›› Issue (22): 2711-2716.DOI: 10.3969/j.issn.1004-132X.2022.22.008

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Modeling of Material Removal Depth in ABFW Polishing Based on Modified Preston Equation

ZHANG Junfeng1;SHI Yaoyao2;LIN Xiaojun2;WU Xiaojun1   

  1. 1.School of Mechanical and Electrical Engineering,Xian University of Architecture and Technology,Xian,710055
    2.Key Laboratory of High Performance Manufacturing for Aero Engine,Ministry of Industry and Information Technology,Northwestern Polytechnical University,Xian,710072
  • Online:2022-11-25 Published:2022-12-22

基于修正Preston方程的百页轮抛光材料去除深度建模

张军锋1;史耀耀2;蔺小军2;吴晓君1   

  1. 1.西安建筑科技大学机电工程学院,西安,710055
    2.西北工业大学航空发动机高性能制造工业和信息化部重点实验室,西安,710072
  • 作者简介:张军锋,男,1986年生,讲师、博士。研究方向为机电控制及自动化、复杂曲面磨削工艺及机理等。发表论文5篇。E-mail:574836232@qq.com。
  • 基金资助:
    陕西省教育厅自然科学专项(20JK0726)

Abstract: Due to the elasticity of ABFW, the actual material removal depth was not consistent with the nominal polishing depth, which directly affected the control of polishing efficiency and surface quality. Based on the Hertz elastic contact theory, the distribution function of polishing pressure and cutting speed in the contact area was established, and the material removal depth model was established according to the modified Preston equation. Based on this, the key processing parameters that affected the material removal depthi.e、abrasive particle size, spindle speed, ABFW deformation and feed rate were determined. Then, the distribution of material removal depth in contact areas and the influences of key polishing process parameters on the material removal depth were obtained. Finally, the correctness of the model and the influence law were verified by simulation and polishing experiments, the results show that the model may better predict the material removal depth of ABFW polishing. 

Key words:  , abrasive belt flap wheel(ABFW), flexible polishing, material removal depth, Preston equation

摘要: 由于百页轮具有一定的柔性,故实际材料去除深度与名义抛光深度不一致,直接影响抛光效率及表面质量的控制。基于Hertz弹性接触理论建立了抛光接触区抛光压力和切削速度分布函数,并依据修正的Preston方程建立了材料去除深度模型,据此确定了影响材料去除深度的关键抛光工艺参数(磨粒粒度、主轴转速、百页轮变形量和进给速度),获得了百页轮抛光接触区的材料去除深度分布规律和关键抛光工艺参数对材料去除深度的影响规律。最后,通过模拟仿真和抛光实验验证了所建模型和影响规律的正确性,结果表明,该模型可以较好地预测百页轮柔性抛光的材料去除深度。

关键词: 百页轮, 柔性抛光, 材料去除深度, Preston方程

CLC Number: