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Technological Progress of General Hot Dip Galvanizing

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Abstract:

Chinese general hot dip galvanizing industry has made great progress in recent years, with an annual output of more than 13 million tons. In China, general hot dip galvanized products were widely applied in many fields such as power facilities, construction, transportation, etc. Through the introduction of a series of advanced technologies including cleaner production technology, the general galvanizing industry was more environmental friendly and sustainable. In the future, Chinese general hot dip galvanizing industry will continue to pay attention to technological developments so as to improve product quality, reduce energy consumption and pollution.

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Periodical:

Applied Mechanics and Materials (Volume 873)

Pages:

71-79

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.873.71

Citation:

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Online since:

November 2017

Authors:

Xun Hua Yuan, Qi Fu Zhang

Keywords:

Cleaner Production, General Hot Dip Galvanizing, Technological Progress, Zinc Consumption

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© 2017 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] Q. F. Zhang, Common Fund of Commodities, UN (CFC Project) Transfer of Technology and Promotion of Demand: Zinc General Hot Dip Galvanizing in China,. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.1-17.

DOI: 10.3362/9781780442334.000

Google Scholar

[2] D. Chen, Survey, Technique and Prospect of General Hot Dip Galvanizing In China. The 7th Asia Pacific General Galvanizing Conference, Beijing, China, (2007), pp.251-259.

Google Scholar

[3] Q. F. Zhang, Developments of Zinc General Hot Dip Galvanizing In China. 23rd International Galvanizing Conference and Exhibition, Paris, France, (2012).

Google Scholar

[4] Z. L. Zhang, Effect of Pickling Process Improvement on Environment and Benefit in Hot Dip Galvanizing. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.311-316.

DOI: 10.3362/9781780442334.000

Google Scholar

[5] J. G. Wang, Application of HG High Efficiency Herbicides in Hot Dip Galvanizing Enterprises. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.257-264.

DOI: 10.1002/9783527636884.ch11

Google Scholar

[6] G. Kong, J. T. Lu, Research and Practice On Fluxing Technology For Hot Dip Galvanizing, Mater. Protect. 30(8) (2005) 56-58.

Google Scholar

[7] D. Chen, X. F. Li, H. L. Liu, et al. The Applied Research of Hot Galvanize Fluxing Agent Additive. The 8th China Symposium on Hot-dip Galvanizing, Qingdao, China. (2009), pp.236-241.

Google Scholar

[8] X. K. Tao, R. S. Peng, Y. C. Sun, et al. Effects of Rare Earth Chloride on Properties of Infusion of Assistant Plating for Hot Dip Plating, Heat Treat. Met. 10 (2000) 10-11.

Google Scholar

[9] M. Y. He, X. J. Zhao, S. M. Wang, Ammonia-free Flux in Hot-dip Galvanizing and Its Application. The 8th China Symposium on Hot-dip Galvanizing, Qingdao, China. (2009), pp.127-133.

DOI: 10.3362/9781780442334.000

Google Scholar

[10] Z. M. Li, New Progress and Development Tendency of Hot- dipped Zinc Alloy. The 8th China Symposium on Hot-dip Galvanizing, Qingdao, China. (2009), pp.120-126.

Google Scholar

[11] Q. Wu, Development and Application of Zn-Ni-Bi-RE-Al Alloy. The 8th China Symposium on Hot-dip Galvanizing, Qingdao, China. (2009), pp.377-379.

Google Scholar

[12] D. J. Zhang, L. C. Kuang, W. Zhang, Study of J28 Alloy for Hot Dip Galvanization of Structural Parts. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.305-310.

DOI: 10.1002/9783527636884.ch2

Google Scholar

[13] C. L. Zhang, EC Chromium-free Passivating Agent. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.317-320.

Google Scholar

[14] L. F. Wen, Application of Waste Heat Recovery System In The Hot-dip Galvanizing Industry. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.273-278.

DOI: 10.3362/9781780442334.000

Google Scholar

[15] Z. Y. Huang, Application of Wet Zinc Smoke and Dust Removal Equipment In Hot Dip Galvanizing. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.119-121.

DOI: 10.3362/9781780442334.000

Google Scholar

[16] Z. Zhang, Wastewater Treatment and Comprehensive Utilization in Hot Dip Galvanizing. The 9th China Symposium on Hot-dip Galvanizing, Chengdu, China. (2011), pp.296-301.

DOI: 10.1002/9783527636884.ch8

Google Scholar

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