The Experimental Study on Mechanical Polishing on Materials with Hydrolysis Reaction

Hung Jung Tsai; Pay Yau Huang; Chung Ming Tan; Tang Feng Chang

doi:10.4028/www.scientific.net/KEM.739.182

Paper Titles

The Friction Properties of Polyvinyl Alcohol/Graphene Oxide Hydrogels as Cartilage Replacement
p.152

Development of a Combined Diamond Impregnated Lapping Plate
p.157

Effects of Load, Squeeze Velocity, Viscosity on Pure Squeeze EHL Motion Using Optical Interferometry
p.164

Dynamic Characteristics of Rotor-Bearing System with a Labyrinth Seal
p.169

The Experimental Study on Mechanical Polishing on Materials with Hydrolysis Reaction
p.182

Mechanical Property Improvement Study for Epoxy Carbon Composite Material Modified with CNT and Aluminum Based Clay
p.187

Numerical Modeling of Piston Lubrication with Body Deformation through Modal Reduction Method
p.193

An Experimental Study on Friction and Wear of Polyethylene with Rice-Husk
p.202

Study of the Friction and Wear Behavior of Metal/Polymer-Metal Multi-Material Configurations
p.211

HomeKey Engineering MaterialsKey Engineering Materials Vol. 739The Experimental Study on Mechanical Polishing on...

The Experimental Study on Mechanical Polishing on Materials with Hydrolysis Reaction

Abstract:

The hydrolytic properties of LiAlO₂ (LAO) are important factors for its applications on LED fabrication. During soft pad polishing process, the H₂O in the slurry is deleterious for LAO surface polishing results. The current study develops a material removal rate model for materials with hydrolysis reaction to predict the result of polishing process.The current research conducts the experimental studies to investigate the material removal rate and its mechanism during the soft pad polishing process. In the experimental study, the hydrolytic properties of LAO have been tested to understand the hydrolysis speed with different operation parameters to assist the development of the theoretical model. Also the material removal rates of LAO with hydrolytic property have been measured under different soft pad polishing operating conditions. The experimental results provide the hydrolytic properties of LiAlO₂ to understanding of the mechanism on polishing process.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 739)

Pages:

182-186

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.739.182

Citation:

Cite this paper

Online since:

June 2017

Authors:

Hung Jung Tsai*, Pay Yau Huang, Chung Ming Tan, Tang Feng Chang

Keywords:

LiAlO₂ (LAO), Mechanical Polishing, Removal Rate

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] J. Zou, Y. Dong, S. Zhou, Y. Sun, W. Jun, J. Zhou, T. Huang, S. Yang, H. Zhou: Journal of Crystal Growth Vol. 294 (2006), p.339.

DOI: 10.1016/j.jcrysgro.2006.06.025

Google Scholar

[2] H. Lin, S. Zhou, H. Teng, T. Jia, X. Hou, S. Gu, S. Zhu, Z. Xie, P. Han and R. Zhang: Journal of Alloys and Compounds Vol. 479 (2009), p. L8.

Google Scholar

[3] H. C. Chuang and P. L. Tso: Journal of Materials Processing Technology Vol. 176 (2006), p.183.

Google Scholar

[4] K. Bhattacharyya and A. Mukherjee: Simulation Modelling Practice and Theory Vol. 14 (2006), p.971.

Google Scholar

[5] Z. J. Pei, S.R. Billingsley and S. Miura: International Journal of Machine Tools & Manufacture Vol. 39 (1999), p.1103.

Google Scholar

[6] H. J. Tsai; Y. R. Jeng and P. Y. Huang: Proc. IMechE Part J: J. Engineering Tribology Vol. 222 (2008), p.761.

Google Scholar

[7] H. J. Tsai; P. Y. Huang; Hung-Cheng Tsai and Shun-Jung Chiu: Materials and Manufacturing Processes Vol. 26: 2 (2011), p.319.

Google Scholar

[8] M. Bhushan, R. Rouse, and J. E. Lukens: J. Electrochem. Soc. Vol. 142 (1995), p.3845.

Google Scholar

[9] C. Srinivasa-Murthy, D. Wang, S. P. Beaudoin, T. Bibby, K. Holland, T. S. Cale: Thin Solid Films Vol. 308-309 (1997), p.533.

DOI: 10.1016/s0040-6090(97)00433-1

Google Scholar

[10] W. -T. Tseng, Y. -H. Wang and J. -H. Chin: J. Electrochem. Soc. Vol. 146 (1999), p.4273.

Google Scholar

[11] S. Sundararajan, D. G. Thakurta, D. W. Schwendeman, S. P. Murarka, and W. N. Gill: J. Electrochem. Soc. Vol. 146 (1999), p.761.

Google Scholar

[12] N. Mueller, C. Rogers, V.P. Manno, R. White and M. Moinpour: J. Electrochem. Soc. Vol. 156 (2009), p. H908.

DOI: 10.1149/1.3223562

Google Scholar

[13] J.A. Levert and C.S. Korach: Tribology Transactions Vol. 52(2) (2009), p.256.

Google Scholar