A state-of-the-art review on electric discharge machining of shape memory alloys

Abstract

Electrical Discharge Machining is among the early non-traditional machining methods. The heart of the EDM process is the thermoelectric energy that exists between the work piece and an electrode. By melting and vaporizing the undesired material in a narrow gap between the work piece and the electrode, a pulse discharge may remove it from the parent metal. In order for the work piece and the electrode to ignite the flame, electrical conductivity is necessary. EDM may be used to develop a range of objects, such as dies and moulds, aeronautical components, and automotive parts. EDM may be used to finish both medical and industrial items. Research trends in EDM are explored in this study, including those in dry EDM machining, ultrasonic vibration, EDM in water, and EDM with powder additives. This paper's purpose is to evaluate the extensive research that has been done to process these shape memory alloys (SMAs) utilizing the concepts of electrical discharge machining (EDM) and related methods. A careful examination and publishing of the numerous studies undertaken in the disciplines of wire EDM, die-sinking EDM, and other EDM variations on different kinds of SMAs. The various theoretical, experimental, modelling, and optimization-based studies that have been done into SMA EDM are also discussed. It was also suggested that choosing the suitable process parameters, tool electrodes, and dielectrics may considerably boost the process overall efficacy.