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An analytical investigation of pad wear caused by the conditioner in fixed abrasive chemical–mechanical polishing
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  • 作者:N. Y. Nguyen ; Z. W. Zhong ; Yebing Tian
  • 关键词:Fixed abrasive ; Chemical–mechanical polishing ; Kinematic motion ; Cutting path density ; Contact time
  • 刊名:The International Journal of Advanced Manufacturing Technology
  • 出版年:2015
  • 出版时间:March 2015
  • 年:2015
  • 卷:77
  • 期:5-8
  • 页码:897-905
  • 全文大小:1,642 KB
  • 参考文献:1. Kim, HJ (2013) Tribological approaches to material removal rate during chemical mechanical polishing. Met Mater Int 19: pp. 335 CrossRef
    2. Enomoto, T, Satake, U, Fujita, T, Sugihara, T (2013) Spiral-structured fixed-abrasive pads for glass finishing. CIRP Ann Manuf Technol 62: pp. 311-314 CrossRef
    3. Velden, P (2000) Chemical mechanical polishing with fixed abrasives using different subpads to optimize wafer uniformity. Microelectron Eng 50: pp. 41-46 CrossRef
    4. Zhong, ZW, Tian, YB, Ng, JH, Ang, YJ (2013) Chemical mechanical polishing (CMP) processes for manufacturing optical silicon substrates with shortened polishing time. Mater Manuf Process 29: pp. 15-19 CrossRef
    5. Tian, YB, Zhong, ZW, Lai, S, Ang, Y (2013) Development of fixed abrasive chemical mechanical polishing process for glass disk substrates. Int J Adv Manuf Technol 68: pp. 993-1000 CrossRef
    6. Tian, YB, Zhong, ZW, Ng, JH (2013) Effects of chemical slurries on fixed abrasive chemical–mechanical polishing of optical silicon substrates. Int J Precis Eng Manuf 14: pp. 1447-1454 CrossRef
    7. Tian, YB, Ang, YJ, Zhong, ZW, Xu, H, Tan, R (2013) Chemical mechanical polishing of glass disk substrates: preliminary experimental investigation. Mater Manuf Process 28: pp. 488-494 CrossRef
    8. Zhong, ZW, Tian, YB, Ang, Y, Wu, H (2012) Optimization of the chemical mechanical polishing process for optical silicon substrates. Int J Adv Manuf Technol 60: pp. 1197-1206 CrossRef
    9. Liao XY, Zhuang Y, Borucki LJ, Cheng J, Theng S, Ashizawa T, Philipossian A (2013) Effect of pad surface micro-texture on removal rate during interlayer dielectric chemical mechanical planarization process. Japanese Journal of Applied Physics 52 (1). doi:10.7567/jjap.52.018001
    10. Lee, S, Jeong, S, Park, K, Kim, H, Jeong, H (2009) Kinematical modeling of pad profile variation during conditioning in chemical mechanical polishing. Jpn J Appl Phys 48: pp. 126502-126505 CrossRef
    11. Baisie, E, Li, ZC, Zhang, XH (2013) Design optimization of diamond disk pad conditioners. Int J Adv Manuf Technol 66: pp. 2041-2052 CrossRef
    12. Tso, P-L, Ho, S-Y (2007) Factors influencing the dressing rate of chemical mechanical polishing pad conditioning. Int J Adv Manuf Technol 33: pp. 720-724 CrossRef
    13. Achuthan, K, Curry, J, Lacy, M, Campbell, D, Babu, S (1996) Investigation of pad deformation and conditioning during the CMP of silicon dioxide films. J Electron Mater 25: pp. 1628-1632 CrossRef
    14. Kim, H, Kim, H, Jeong, H, Seo, H, Lee, S (2003) Self-conditioning of encapsulated abrasive pad in chemical mechanical polishing. J Mater Process Technol 142: pp. 614-618 CrossRef
    15. Chang, O, Kim, H, Park, K, Park, B, Seo, H, Jeong, H (2007) Mathematical modeling of CMP conditioning process. Microelectron Eng 84: pp. 577-583 CrossRef
    16. Y-y, Z, Davis, EC (1999) Variation of polish pad shape during pad dressing. Mater Sci Eng B 68: pp. 91-98 CrossRef
    17. Hooper, B, Byrne, G, Galligan, S (2002) Pad conditioning in chemical mechanical polishing. J Mater Process Technol 123: pp. 107-113
  • 刊物类别:Engineering
  • 刊物主题:Industrial and Production Engineering
    Production and Logistics
    Mechanical Engineering
    Computer-Aided Engineering and Design
  • 出版者:Springer London
  • ISSN:1433-3015
文摘
Fixed abrasive chemical–mechanical polishing (CMP) is an efficient surface finishing method. The non-uniformity of substrates after polishing is one of the most interesting things in current trends in research. One of the reasons for the non-uniformity is pad wear. The pad in this polishing process has abrasive grains embedded on the surface. Researching on the pad wear will help improve the pad conditioning process to get a better pad surface. Some studies have used kinematic motion to show the correlation between the cutting path density and the pad wear. However, the effect of contact time between the conditioner’s grains and the pad surface on the pad wear non-uniformity has not been integrated yet. In this research, an analytical model was established by combining of the kinematic motions and the contact time to investigate the pad wear non-uniformity. The results indicated that the cutting path density and the contact time near the pad center are more than that near the pad edge. They could be the main reasons of the non-uniformity of the pad wear. The model results showed a good agreement with experiments.

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