Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
The International Journal of Advanced Manufacturing Technology
Published in: The International Journal of Advanced Manufacturing Technology 9-10/2024

16-01-2024 | ORIGINAL ARTICLE

Adaptive polishing path optimization for free-form uniform polishing based on footprint evolution

Authors: Yanjun Han, Chong Wang, Haiyang Zhang, Menghuan Yu, Xunchuan Chang, Jie Dong, Yunfei Zhang

Published in: The International Journal of Advanced Manufacturing Technology | Issue 9-10/2024

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

Polishing path optimization plays a crucial role in achieving high-quality and uniform surface polishing of free-form surfaces. To address the issue of uncontrollable ripple errors caused by uneven material removal in traditional contact polishing, this paper proposes an adaptive polishing path optimization method for uniform polishing of free-form surfaces based on footprint evolution. The presented approach considers the influence of curvature on footprint evolution and seeks to dynamically optimize the spacing between adjacent paths. This optimization ensures suitable overlap between neighboring footprints, ultimately leading to the achievement of uniform depth removal. Through modeling simulations and experimental comparisons involving different contact curvatures, it has been conclusively established that surface curvature plays a pivotal role in footprint evolution. Additionally, surface polishing experiments yielded results indicating a reduction in surface waviness within the central polishing area, decreasing from a root-mean-square value of 5.1766 to 4.1448 nm. These outcomes preliminary demonstrate the effectiveness of the proposed method. This study presents an efficient curvature adaptive path planning approach based on footprint evolution, offering new insights into achieving uniform polishing and suppressing waviness errors on free-form surfaces.
previous article Investigation of manufacturing process effects on microstructure and fatigue prediction in composite automotive tailgate design
next article Solving basic problems of compliant tolerance analysis by static analogy

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now
Literature
1.
Zhu WL, Beaucamp A (2020) Compliant grinding and polishing: a review. Int Mach Tools Manuf 158:103634CrossRef
2.
Kang MS, Gu Y, Lin JQ, Zhou XQ, Zhang S, Zhao HB, Li Z, Yu BJ, Fu B (2023) Material removal mechanism of non-resonant vibration-assisted magnetorheological finishing of silicon carbide ceramics. Int J Mech Sci 242:107986CrossRef
3.
Tamkin JM, Milster JM (2010) Effects of structured mid-spatial frequency surface errors on image performance. Appl Optics 49:6522–6536CrossRef
4.
Cao ZC, Cheung CF (2016) Multi-scale modeling and simulation of material removal characteristics in computer-controlled bonnet polishing. Int J Mech Sci 106:147–156CrossRef
5.
Beaucamp A, Namba Y, Freeman R (2012) Dynamic multiphase modeling and optimization of fluid jet polishing process. CIRP Annals 61:315–318CrossRef
6.
Saraswathamma K (2013) Magnetorheological finishing: a review. Int Conf Adv Mech Sci 2:168–173
7.
Han Y, Liu C, Yu M, Jiang L, Zhu W, Qian L, Beaucamp A (2023) Material removal characteristics in submerged pulsating air jet polishing process. Int J Mech Sci 257:108534CrossRef
8.
Wu ZW, Shen JY, Peng YF, Wu X (2022) Review on ultra-precision bonnet polishing technology. Int J Adv Manuf Technol 121:2901–2921CrossRef
9.
Zhu WL, Beaucamp A (2022) Generic three-dimensional model of freeform surface polishing with non-Newtonian fluids. Int Mach Tools Manuf 172:103837CrossRef
10.
Lin WY, Xu P, Li B, Yang XJ (2014) Path planning of mechanical polishing process for freeform surface with a small polishing tool. Robot Biomim 1:24CrossRef
11.
Lee YS (1998) Non-isoparametric tool path planning by machining strip evaluation for 5-axis sculptured surface machining. Comput Aided Des 30:559–570CrossRef
12.
Feng HY, Teng ZJ (2005) Iso-planar piecewise linear NC tool path generation from discrete measured data points. Comput Aided Des 37:55–64CrossRef
13.
Cao YX, Zhao J, Qu XT, Wang X, Tian N (2022) Polishing trajectory planning method for optimal removal of full surface. Adv Mech Eng 14:1–20CrossRef
14.
Hwang JS, Chang TC (1998) Three-axis machining of compound surfaces using flat and filleted endmills. Comput Aided Des 30:641–647CrossRef
15.
Chen ZZC, Dong ZM, Vickers GW (2003) Automated surface subdivision and tool path generation for 3 1/2 1/2-axis CNC machining of sculptured parts. Comput Ind 50:319–331CrossRef
16.
Mizugaki Y, Sakamoto M, Sata T (1992) Fractal path generation for a metal-mold polishing robot system and its evaluation by the operability. CIRP Ann-Manuf Techn 41:531–534CrossRef
17.
Dunn CR, Walker DD (2008) Pseudo-random tool paths for CNC sub-aperture polishing and other applications. Opt Express 16:18942–18949CrossRef
18.
Tam HY, Cheng HB, Dong ZC (2013) Peano-like paths for sub-aperture polishing of optical aspherical surfaces. Appl Optics 52:3624–3636CrossRef
19.
Wang C, Han Y, Zhang H, Liu C, Jiang L, Qian L (2022) Suppression of mid-spatial-frequency waviness by universal random tree-shaped path in robotic bonnet polishing. Opt Express 30(16):29216–29233CrossRef
20.
Beaucamp A, Takizawa K, Han YJ, Zhu WL (2021) Reduction of mid-spatial frequency errors on aspheric and freeform optics by circular-random path polishing. Opt Express 29:29802–29812CrossRef
21.
Rososhansky M, Xi FF (2011) Coverage based tool-path planning for automatic polishing using contact mechanics theory. J Manuf Syst 30:144–153CrossRef
22.
Jin MS, Ji SM, Zhang L, Chen WQ, Jiang XX (2013) Line spacing optimization and experimental research of gasbag polishing with continuous precession. Chin Mech Eng 24:861–865
23.
Hao H, Dai YF, Peng XQ (2010) Restraint of tool path ripple based on surface error distribution and process parameters in deterministic finishing. Opt Express 18:22973–22981CrossRef
24.
Han YJ, Zhu WL, Zhang L (2020) Beaucamp A (2020) Region adaptive scheduling for time-dependent processes with optimal use of machine dynamics. Int J Mach Tool Manuf 156:103589CrossRef
25.
Zhang L, Han Y, Fan C, Tang Y, Song X (2017) Polishing path planning for physically uniform overlap of polishing ribbons on freeform surface. Int J Adv Manuf Technol 92:4525–4541CrossRef
26.
Han YJ, Zhang L, Guo M, Fan C, Liang FS (2018) Tool paths generation strategy for polishing of freeform surface with physically uniform coverage. Int J Adv Manuf Technol 95:2125–2144CrossRef
27.
Greenwood JA (1997) Analysis of elliptical Hertzian contacts. Tribol Int 30:235–237CrossRef
28.
Moon Y (2016) Chemical and physical mechanisms of dielectric chemical mechanical polishing (CMP). Adv Chem Mech Planarization (CMP). Woodhead Publishing, pp 3–26CrossRef
Metadata
Title
Adaptive polishing path optimization for free-form uniform polishing based on footprint evolution
Authors
Yanjun Han
Chong Wang
Haiyang Zhang
Menghuan Yu
Xunchuan Chang
Jie Dong
Yunfei Zhang
Publication date
16-01-2024
Publisher
Springer London
Published in
The International Journal of Advanced Manufacturing Technology / Issue 9-10/2024
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI
https://doi.org/10.1007/s00170-024-12996-z

Other articles of this Issue 9-10/2024

The International Journal of Advanced Manufacturing Technology 9-10/2024 Go to the issue

ORIGINAL ARTICLE

Optimizing energy consumption in directed energy deposition-based hybrid additive manufacturing: an integrated modelling and experimental approach

ORIGINAL ARTICLE

Coupling design and fabrication of continuous carbon fiber-reinforced composite structures using two-material topology optimization and additive manufacturing

ORIGINAL ARTICLE

Experimental investigation on tool wear and hole quality in helical milling of CFRPs

ORIGINAL ARTICLE

A heat source model for dissimilar Al/Cu friction stir welding process based on tool torque measurement

ORIGINAL ARTICLE

Design and implementation of an innovative canned cycle for variable pitch thread cutting on CNC milling machines

ORIGINAL ARTICLE

Numerical simulation of thermal processes in cold metal transfer-based additive manufacturing

Premium Partners

    Image Credits