Abstract High speed selective jet electrodeposition (HSSJE) employs a jet of electrolyte with potential difference between anode and cathode for deposition at cathode. The HSSJE process is a new process and is at its developmental stage. The HSSJE process can be utilized for maskless fabrication of metallic micro features for micro electro mechanical systems (MEMS) and other applications. The HSSJE process uses an electrolyte jet which makes the process difficult to control. A theoretical model as well as analysis is necessary for design and development of control system of HSSJE process. In this work, mathematical models for predicting deposition rate and deposition height with respect to input process parameters (applied voltage, concentration of metal ions, and inter electrode gap) have been developed. This model also predicts the distribution of potential gradient on the substrate surface and potential distribution within the jet. Experimental study has also been conducted to validate the proposed model.
[1]
R. Alkire,et al.
High‐Speed Selective Electroplating with Single Circular Jets
,
1982
.
[2]
Masanori Kunieda,et al.
Rapid Prototyping by Selective Electrodeposition Using Electrolyte Jet
,
1998
.
[3]
G. W. Vinal,et al.
Resistivity of sulphuric-acid solutions and its relation to viscosity and temperature
,
1934
.
[4]
Ming-Chuan Leu,et al.
Electroforming Process and Application to Micro/Macro Manufacturing
,
2001
.
[5]
J.b.Gupta.
A text book of electrical technology
,
2016
.
[6]
J. Walker,et al.
Prediction of electrodeposition rates from an impinging jet
,
1996
.
[7]
T. H. Nayfeh,et al.
Micro fabrication using electro deposition and ultrasonic acoustic liquid manipulation
,
2008
.
[8]
Kamlakar P Rajurkar,et al.
Study of Electrochemical Jet Machining Process
,
1996
.