Optimal Design of Cylinderical Ectrode Using Neural Network Modeling for Electrochemical Finishing

Authors

  • Nadhim M. Faleh Mechanical Engineering Department, College of Engineering, Al-mustansiriyah University, Iraq

DOI:

https://doi.org/10.31699/IJCPE.2013.3.4

Keywords:

Design; Electrode; Electrochemical; Polishing; Roughness

Abstract

The finishing operation of the electrochemical finishing technology (ECF) for tube of steel was investigated In this study. Experimental procedures included qualitative
and quantitative analyses for surface roughness and material removal. Qualitative analyses utilized finishing optimization of a specific specimen in various design and operating conditions; value of gap from 0.2 to 10mm, flow rate of electrolytes from 5 to 15liter/min, finishing time from 1 to 4min and the applied voltage from 6 to 12v, to find out the value of surface roughness and material removal at each electrochemical state. From the measured material removal for each process state was used to verify the relationship with finishing time of work piece. Electrochemical finishing proves an effective method to reduce the surface roughness (Ra) from 1.6μm to 0.1μm in 4 min. Finally, the observed relationships were used to predicate the diameter of blank, tool diameter and flow rate by neural network modeling ANN which has inputs defined by the finished hole diameter, surface roughness, and finishing time. Three of hidden layers and their neurons were found by an integration procedure. The design charts observed from this study utilize the designers in predication of diameter for blank and design of electrode.

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Published

2013-09-30

How to Cite

M. Faleh, N. (2013). Optimal Design of Cylinderical Ectrode Using Neural Network Modeling for Electrochemical Finishing. Iraqi Journal of Chemical and Petroleum Engineering, 14(3), 33-47. https://doi.org/10.31699/IJCPE.2013.3.4

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