A Review on Electrochemical Discharge Machining Variants with Magnetic Field Assisted Electrochemical Discharge Machining.

Abstract

Variants of the ECDM process are developed as a result of some of the enhancements. For additional process enrichment, the research community has created Magneto aided ECDM. A thorough analysis of these recent advancements in the ECDM method, its variations, and MHD-based ECDM is provided in this review article . Research potentials are recognized and presented as future research opportunities. Researchers that focus on the impact of controllable parameters on the rate of material removal and width overcut have already completed the majority of the work on traditional ECDM. The hydrodynamic regime must be controlled in order to fabricate deep micro channels. The gas film properties and bubble formation phenomena are governed by the hydrodynamic regime, which is key role for the creation.

The gas film properties and bubble formation phenomena are governed by the hydrodynamic regime, which is crucial for the creation of deep micro channels. The different voltage, concentration, and duty cycles cannot affect two important parameters (i) the thickness of the gas layer and (ii) the frequency of discharge. This study uses MHD convection to control the properties of gas films and the occurrence of bubbles.