Technical Study of Jet Electrodeposition in Manufacture of Metal Parts

Hui Fan; Yang Pei Zhao; Shan Kui Wang

doi:10.4028/www.scientific.net/KEM.667.259

Paper Titles

The Analysis of Tool Wear in Milling CFRP with Different Diamond Coated Tool
p.231

Finite Element Analysis of High Temperature Alloy Cutting Process Based on Abaqus
p.237

Thermal Stress Analysis of Powder Metallurgy Sintering Process Based on ANSYS
p.244

Study on the Preparation of Bamboo Plastic Composite Intend for Additive Manufacturing
p.250

Technical Study of Jet Electrodeposition in Manufacture of Metal Parts
p.259

Dynamic Porosity of 3D Network SiC Ceramic as the Shock-Damping and Acoustic-Absorbing Material for Ultra-Precise Machine Laying
p.267

Electrical Contact Property of AuNi9/AuCuAgZn Sheet Tribo-Couple
p.274

Electrochemical Characteristics of the Amorphous-Nanocrystal Ni–Mo Cathodes in Sodium Hydroxide Solution
p.280

Experimental and Modelling of Constitutive Equation of Polycarbonate Material
p.286

HomeKey Engineering MaterialsKey Engineering Materials Vol. 667Technical Study of Jet Electrodeposition in...

Technical Study of Jet Electrodeposition in Manufacture of Metal Parts

Abstract:

Jet electrodeposition is one of electrochemical machining methods, which is able to increase cathodic current density, therefore having high deposition rate, good locality and nanocrystalline structure. These advantages enable jet electro-deposition to integrate with rapid prototyping technology in an effort to achieve selective electro-deposition on the cathode surface. This paper combine both methods to prepare nanocrystalline copper parts. The equipment system is developed, which is mainly composed of computer control system, machine body, electrolyte circulation system, nozzle and its hoisting mechanism and other parts. Deposition rate, locality, deposit thickness distribution and forming accuracy are analyzed. A group of nanocrystalline copper parts having good shape and size precision have been prepared. Influencing factors on forming accuracy are analyzed.

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Periodical:

Key Engineering Materials (Volume 667)

Pages:

259-264

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.667.259

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Online since:

October 2015

Authors:

Hui Fan*, Yang Pei Zhao, Shan Kui Wang

Keywords:

Copper Part, Jet Electrodeposition, Prototyping

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References

[1] J.A. McGeough, M.C. Leu, K.P. Rajurkar, A.K.M. De Silva and Q. Liu: Manufacturing Technology, Vol. 50 (2001) No. 2, pp.499-514.

DOI: 10.1016/s0007-8506(07)62990-4

Google Scholar

[2] G.N. Li, C.J. Huang, L. Luo, M. Guo, Z.Y. Yu and J. Yu: Microfabrication Technology, Vol. 6 (2006), pp.1-5.

Google Scholar

[3] K. Wang, D. Zhu and J.M. Yang: Aviation Precision Manufacturing Technology, Vol. 40 (2004) No. 6, pp.17-19. (In Chinese).

Google Scholar

[4] H.H. Yang and S.W. Kang: International Journal of Machine Tools and Manufacture, Vol. 40 (2000) No. 7, pp.1071-1078.

Google Scholar

[5] K. S. Chen and G. H. Evans: Microsystem Technologies, (2004) No. 10, pp.443-447.

Google Scholar

[6] M.S. Chandrasekar and P. Malathy: Electrochemical Acta, Vol. 53 (2008) No. 8, p.3315.

Google Scholar

[7] Z.W. Zhu, D. Zhu and N.S. Qu: Materials and Design, (2007), No. 28, p.1776–1779.

Google Scholar

[8] Li H Z, Wang J, Fan J M. Analysis and modelling of particle velocities in micro-abrasive air jet. International Journal of Machine Tools & Manufacture, Vol. 49 (2009), No. 11, pp.850-858.

DOI: 10.1016/j.ijmachtools.2009.05.012

Google Scholar

[9] H Fan, Y-H Huang. Improved microstructure and corrosion resistance of nanostructured nickel coating via pulsed jet plating. Corrosion Engineering Science and Technology, Vol. 48 (2013), No. 1: pp.48-50.

DOI: 10.1179/1743278212y.0000000044

Google Scholar

[10] W.F. Ding, J.H. Xu, Z.Z. Chen, H.H. Su, Y.C. Chinese Journal of Aeronautics, Vol. 23(2010), No4: pp.501-510.

Google Scholar

[11] Y.P. Zhao, Y. H Huang, J. H Zhao, Z. D Liu, Z. J Tian. Journal of Nanjing University of Aeronautics & Astronautics, Vol. 36(2004), No4: pp.458-461.

Google Scholar