Kinematics performance oriented smoothing method to plan tool orientations for 5-axis ball-end CNC machining

•Propose a new smoothing method to plan tool orientations for 5-axis ball-end machining.•Be able to simplify considerably the process of optimizing the tool orientations.•Generate geometrically interference-free and kinematically smooth tool orientations.•Validate our method by comparison with NX/CA...

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Published inInternational journal of mechanical sciences Vol. 157-158; pp. 293 - 303
Main Authors Xu, Jinting, Zhang, Dayuan, Sun, Yuwen
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2019
Subjects
5-axis machine
Angular acceleration
CNC machining
Kinematics performance
Tool orientation
Tool orientation
CNC machining
Kinematics performance
5-axis machine
Angular acceleration
Online AccessGet full text
ISSN0020-7403
1879-2162
DOI10.1016/j.ijmecsci.2019.04.038

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Abstract •Propose a new smoothing method to plan tool orientations for 5-axis ball-end machining.•Be able to simplify considerably the process of optimizing the tool orientations.•Generate geometrically interference-free and kinematically smooth tool orientations.•Validate our method by comparison with NX/CAM’s and QI methods. When adopting 5-axis machine to mill the parts, it is desired to avoid the drastic change of tool orientation for improving the kinematics performance of 5-axis machining while ensuring no machining interferences. For this purpose, a kinematics performance oriented smoothing method is proposed to plan the tool orientations, which is focused specifically on minimizing the angular accelerations imposed on the rotary axes of 5-axis machine. In this method, with several specified representative tool orientations (RTOs), two B-spline curves, which represent the displacements of the rotary axes, are used to join smoothly the RTOs together and then to determine the tool orientations at other areas. The solutions for the two B-spline curves are achieved by solving a least-square objective function which minimizes the angular accelerations of the rotary axes. To restricting simultaneously the interpolated tool orientations in the geometric feasible domains (GFDs) of tool motion, a simple alternate strategy of first smoothing the tool orientation and then checking the machining interference is developed so that tool orientation planning and its geometric constraints are decoupled and the complicated constraint optimization process of tool orientation can be greatly simplified. Since the proposed method works in the machine coordinate system (MCS), it can not only ensure the smooth motions of the rotary axes without the machining interferences, but also can generate directly the rotary axis orders. Finally, the proposed method is validated by the experiments.
AbstractList •Propose a new smoothing method to plan tool orientations for 5-axis ball-end machining.•Be able to simplify considerably the process of optimizing the tool orientations.•Generate geometrically interference-free and kinematically smooth tool orientations.•Validate our method by comparison with NX/CAM’s and QI methods. When adopting 5-axis machine to mill the parts, it is desired to avoid the drastic change of tool orientation for improving the kinematics performance of 5-axis machining while ensuring no machining interferences. For this purpose, a kinematics performance oriented smoothing method is proposed to plan the tool orientations, which is focused specifically on minimizing the angular accelerations imposed on the rotary axes of 5-axis machine. In this method, with several specified representative tool orientations (RTOs), two B-spline curves, which represent the displacements of the rotary axes, are used to join smoothly the RTOs together and then to determine the tool orientations at other areas. The solutions for the two B-spline curves are achieved by solving a least-square objective function which minimizes the angular accelerations of the rotary axes. To restricting simultaneously the interpolated tool orientations in the geometric feasible domains (GFDs) of tool motion, a simple alternate strategy of first smoothing the tool orientation and then checking the machining interference is developed so that tool orientation planning and its geometric constraints are decoupled and the complicated constraint optimization process of tool orientation can be greatly simplified. Since the proposed method works in the machine coordinate system (MCS), it can not only ensure the smooth motions of the rotary axes without the machining interferences, but also can generate directly the rotary axis orders. Finally, the proposed method is validated by the experiments.
Author Zhang, Dayuan
Xu, Jinting
Sun, Yuwen
Author_xml – sequence: 1
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  surname: Xu
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  surname: Zhang
  fullname: Zhang, Dayuan
  organization: School of Mechanical Engineering, Dalian University of Technology, Dalian 116024, China
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  givenname: Yuwen
  surname: Sun
  fullname: Sun, Yuwen
  email: ywsun@dlut.edu.cn
  organization: School of Mechanical Engineering, Dalian University of Technology, Dalian 116024, China
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Keywords Tool orientation
CNC machining
Kinematics performance
5-axis machine
Angular acceleration
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Snippet •Propose a new smoothing method to plan tool orientations for 5-axis ball-end machining.•Be able to simplify considerably the process of optimizing the tool...
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StartPage 293
SubjectTerms 5-axis machine
Angular acceleration
CNC machining
Kinematics performance
Tool orientation
Title Kinematics performance oriented smoothing method to plan tool orientations for 5-axis ball-end CNC machining
URI https://dx.doi.org/10.1016/j.ijmecsci.2019.04.038
Volume 157-158
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