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Numerical Simulation for Fluid Flow of Flow Channel Structure in the Injection-Rolling Nozzle during Polymer Continue Injection Direct Rolling

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Abstract:

IRN (injection-rolling nozzle) is the key component of the new Polymer CIDR (Continue Injection Direct Rolling) process, and it has higher requirements than the metal roll-casting nozzle. In order to achieve uniform exit velocity, a new type of structure of the flow channel which is called IRN flow channel structure is designed by combining with the two traditional flow channel characteristics, i.e. the fishtail and coat-hanger flow channel. Then numerical simulation was used to calculate the fluid field in IRN flow channel and analyze 3D flow phenomenon and characteristics. The simulation results show that it has a uniform exit velocity of the IRN flow channel with the value of about 0.06m/s.

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Info:

Periodical:

Advanced Materials Research (Volumes 834-836)

Pages:

1584-1587

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.834-836.1584

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Online since:

October 2013

Authors:

Huai Wei Peng, Yan Lou, Yong Hu Lv, Hai Xiong Wang, Chang Sheng Wang, Ji Bin Li*

Keywords:

CIDR, Flow Channel Structure, Injection-Rolling Nozzle

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Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

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* - Corresponding Author

References

[1] J.B. Li, C.S. Wang, Y. Lou, H.X. Wang, Chinese Patent: CN202462889U. (2012).

Google Scholar

[2] J. B Li, C.S. Wang, Y. Lou, H.X. Wang, Chinese Patent: CN102582087A. (2012).

Google Scholar

[3] X.B. Liu, J. J Zhu, D.H. Mao. Light Alloy Fabrication Technology, 2003, 31(5): 16-18.

Google Scholar

[4] Z.J. Xu, J.M. He, F.H. Zhu, et al. China Plastics Industry, 2005, 33(1): 30-33.

Google Scholar

[5] Y.G. Xiong, J.P. Tan. Research Studies on Foundry Equipment, 2005, 3: 4-6.

Google Scholar

[6] Beals R., Duvvuri R., Hamer S, et al. Light Metals, 1998, 9(12): 1305-1312.

Google Scholar

[7] S. Hamer, D. Smith, G Yiklizbayrak. et al. Light Metals, 1999, 41(6): 1117-112.

Google Scholar

[8] G Yildlizbayrak. Turkish Industrial Design Patent No. 6980.

Google Scholar

[9] K. Sariogly, G. Yildizhayrak, M Dunder. Light Metals, 2000, 32(7): 588-596.

Google Scholar

[10] Y. Zhou, P. Feng, H.L. Hu, P.J. Li, C.J. Shuai. ICEEE 2010, (2): 636-639.

Google Scholar

[11] Y. Zhou, P. Feng, P.J. Li, H.L. Hu, C.J. Shuai. ICEEE 2010, (2): 640-644.

Google Scholar

[12] J. A. Peitzmeier. Michigan Technological University, (2012).

Google Scholar