A Review of Electrode Manufacturing Methods for Electrical Discharge Machining: Current Status and Future Perspectives for Surface Alloying

Abstract: In electrical discharge machining (EDM), the tool electrode is one of the substantial components of the system, and it ensures the success or failure of the EDM process. The electrode’s role is to conduct electrical charges and erode the workpiece to the desired shape. Different electrode materials have different impacts on machining. Certain electrode materials remove metal quickly but wear out rapidly, while others degrade slowly but the material removal is too slow. The choice of the electrode has an influe… Show more

“…11 Electrodes are critical components in these technologies, and selecting appropriate electrodes is essential for achieving optimal performance. 12,13 Traditional wearable technologies often employ rigid electronic compo-nents and hard materials, which limit the comfort and flexibility of the devices. 14−16 Smart textiles have been extensively researched and applied in flexible wearable electronics due to their unique structure, flexibility, breathability, and multifunctionality.…”

“…These devices generate electricity through mechanical pressure, providing efficient and reliable power sources for various wearable technologies . Electrodes are critical components in these technologies, and selecting appropriate electrodes is essential for achieving optimal performance. , Traditional wearable technologies often employ rigid electronic components and hard materials, which limit the comfort and flexibility of the devices. − Smart textiles have been extensively researched and applied in flexible wearable electronics due to their unique structure, flexibility, breathability, and multifunctionality. − However, textiles are inherently insulating and require conductive treatment to function as electrode substrates. , The primary approach for fabric-based electrodes involves coating the fabric surface with conductive or active materials to create functional electrodes. , …”

Self-Powered Sensors Made with Fabric-Based Electrodes and a Conductive Coating

“…11 Electrodes are critical components in these technologies, and selecting appropriate electrodes is essential for achieving optimal performance. 12,13 Traditional wearable technologies often employ rigid electronic compo-nents and hard materials, which limit the comfort and flexibility of the devices. 14−16 Smart textiles have been extensively researched and applied in flexible wearable electronics due to their unique structure, flexibility, breathability, and multifunctionality.…”

“…These devices generate electricity through mechanical pressure, providing efficient and reliable power sources for various wearable technologies . Electrodes are critical components in these technologies, and selecting appropriate electrodes is essential for achieving optimal performance. , Traditional wearable technologies often employ rigid electronic components and hard materials, which limit the comfort and flexibility of the devices. − Smart textiles have been extensively researched and applied in flexible wearable electronics due to their unique structure, flexibility, breathability, and multifunctionality. − However, textiles are inherently insulating and require conductive treatment to function as electrode substrates. , The primary approach for fabric-based electrodes involves coating the fabric surface with conductive or active materials to create functional electrodes. , …”

Self-Powered Sensors Made with Fabric-Based Electrodes and a Conductive Coating

Natural Surfactant Stabilized Aqueous MoS2 Nano-Lubricants for Reducing Friction and Wear

Sinking ECDM micro-milling of micro-channels with a customized electrode