Abstract

It is important for precise fabrication to research the material removal model of polishing. Simulation is done by computational fluid dynamics for fluid jet polishing (FJP). Numerical research and theoretical description for abrasive particles discrete system are taken by population balance modeling method, and experiments are taken to research the removal profile by vertical fluid jet polishing (VFJP). The results of experiment and simulation show that the removal profile of VFJP turns on a W-shaped profile. By analyzing the material removal mechanism of FJP that material is removed by particles impinging wear and wall movement erosion, the mathematical material removal model of VFJP is enduced. Comparing the mathematical material removal model with the experimental removal profile, it is found that the mathematical material removal model of VFJP is accurate.

© 2010 Chinese Optics Letters

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2009

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

H. Li, W. Zhang, and G. Yu, Acta Opt. Sin. (in Chinese) 29, 811 (2009).

B. Wang, J. Zhang, and S. Dong, Chin. Opt. Lett. 7, 537 (2009).

2008

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

2006

H. Fang, P. Guo, and J. Yu, Opt. Eng. 45, 053401 (2006).

1999

O. W. F�ahnle, Proc. SPIE 3739, 68 (1999).

1998

1995

J. C. Lambropoulos, S. Xu, and T. Fang, Proc. SPIE 2536, 275 (1995).

1970

G. L. Sheldon, J. Basic Eng. 92, 619 (1970).

1927

F. Preston, J. Soc. Glass Technol. 11, 214 (1927).

Brug, H. van

Chen, Q.

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Dong, S.

F?ahnle, O. W.

O. W. F�ahnle, Proc. SPIE 3739, 68 (1999).

O. W. F�ahnle and H. van Brug, Appl. Opt. 37, 6671 (1998).

Fang, H.

H. Fang, P. Guo, and J. Yu, Opt. Eng. 45, 053401 (2006).

Fang, T.

J. C. Lambropoulos, S. Xu, and T. Fang, Proc. SPIE 2536, 275 (1995).

Guo, P.

H. Fang, P. Guo, and J. Yu, Opt. Eng. 45, 053401 (2006).

Hou, X.

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Lambropoulos, J. C.

J. C. Lambropoulos, S. Xu, and T. Fang, Proc. SPIE 2536, 275 (1995).

Li, H.

H. Li, W. Zhang, and G. Yu, Acta Opt. Sin. (in Chinese) 29, 811 (2009).

Preston, F.

F. Preston, J. Soc. Glass Technol. 11, 214 (1927).

Sheldon, G. L.

G. L. Sheldon, J. Basic Eng. 92, 619 (1970).

Shi, C.

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

Wan, Y.

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

Wang, B.

Wu, F.

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Wu, G.

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Xie, Y.

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Xu, S.

J. C. Lambropoulos, S. Xu, and T. Fang, Proc. SPIE 2536, 275 (1995).

Yu, G.

H. Li, W. Zhang, and G. Yu, Acta Opt. Sin. (in Chinese) 29, 811 (2009).

Yu, J.

H. Fang, P. Guo, and J. Yu, Opt. Eng. 45, 053401 (2006).

Yuan, J.

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

Zhang, J.

B. Wang, J. Zhang, and S. Dong, Chin. Opt. Lett. 7, 537 (2009).

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

Zhang, W.

H. Li, W. Zhang, and G. Yu, Acta Opt. Sin. (in Chinese) 29, 811 (2009).

Acta Opt. Sin. (in Chinese)

Y. Xie, Q. Chen, F. Wu, X. Hou, J. Zhang, and G. Wu, Acta Opt. Sin. (in Chinese) 28, 1313 (2008).

H. Li, W. Zhang, and G. Yu, Acta Opt. Sin. (in Chinese) 29, 811 (2009).

Appl. Opt.

Chin. Opt. Lett.

High Power Laser and Paricle Beams (in Chinese)

C. Shi, J. Yuan, F. Wu, and Y. Wan, High Power Laser and Paricle Beams (in Chinese) 21, 6 (2009).

J. Basic Eng.

G. L. Sheldon, J. Basic Eng. 92, 619 (1970).

J. Soc. Glass Technol.

F. Preston, J. Soc. Glass Technol. 11, 214 (1927).

Opt. Eng.

H. Fang, P. Guo, and J. Yu, Opt. Eng. 45, 053401 (2006).

Opto-Electronic Engineering (in Chinese)

C. Shi, J. Yuan, F. Wu, and Y. Wan, Opto-Electronic Engineering (in Chinese) 35, 131 (2009).

Proc. SPIE

J. C. Lambropoulos, S. Xu, and T. Fang, Proc. SPIE 2536, 275 (1995).

O. W. F�ahnle, Proc. SPIE 3739, 68 (1999).

Other

H. Zhao and C. Zhen, Dynamics Process Simulation of Discrete System by Population Balance Modeling (in Chinese) (Science Press, Beijing, 2008).

J. Zeng, "Mechanisms of brittle material erosion associated with high-pressure abrasive water jet processing: a modelling and application study" PhD Thesis (University of Rhode Island, Kingston, 1992).

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