Electrical Discharge Machining (EDM) | Modern Machine Shop

EDM, or electrical discharge machining, is capable of machining complex shapes in hard materials. The process includes an electrode and a workpiece, both submerged in dielectric fluid. Electrical current flows between the workpiece and electrode, repeatedly creating tiny plasma zones that instantaneously melt and remove the material. The electrode in EDM takes different forms. Wire EDM machines use a thin wire to cut. Ram EDM machines, or “die sinkers,” use electrodes that are custom machined into 3D shapes. The EDM process produces a cavity in the part that is the opposite or female version of the “male” electrode form. Similar to the ram EDM machine is the small-hole EDM machine, or “hole popper.” On this machine, the electrode is a cylinder used to machine a hole.

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Electrical discharge machining, or EDM, is a non-contact form of machining that projects sparks from an electrode or wire to vaporize material of any hardness.

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Successful sinker EDM operations rely on understanding the relationship between each individual spark, the electrode and the workpiece.

Software simulation helped this machine shop learn how to program its new advanced, high-tolerance wire EDM. The software also helped the shop turn job quotes around quickly.

Removing the microscopic particles made during the wire EDM cutting process becomes a key factor in maximizing cutting speed as well as attaining part accuracy and surface finish. Dielectric fluid is the mechanism for flushing these “chips” away.

The EDMMax 434W fast-wire EDM includes four-axis cutting capability that enables it to cut 3D support structures or other shop-related parts.

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The Sodick ALG EDM series doubles motor response speed for the development of accurate, high-quality molds, and is equipped with automated features for continuous operations.

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The Cut F 600’s iWire function automatically identifies and adapts wire speed to changing erosion height conditions during the wire EDM process, eliminating wire breakage while reducing overall wire consumption.

The company will use the new wire EDM machine to increase capacity, improve cycle times, achieve tighter tolerances and improve surface finishes.

Plagued by repeated small fires that interrupted its wire EDM throughput, this cutting tool manufacturer changed its dielectric oil and both eliminated fires and reduced its oil consumption.

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Electrical discharge machining, or EDM, is a non-contact form of machining that projects sparks from an electrode or wire to vaporize material of any hardness.

What is EDM?

Electrical discharge machining, or EDM, is a non-contact process that can machine parts regardless of their hardness. It involves placing an electrode or wire and an electrically conductive workpiece into a circulating dielectric fluid. The fluid acts as an insulator until a specific spark gap and voltage ionizes it and enables a spark to travel to the workpiece.

Using a CNC, the operator moves the electrode or wire as needed and rapidly turns the current on and off. This accommodates the flushing of molten material (often called “swarf”) from the workpiece.

Source: Machining 101: What is Electrical Discharge Machining?

What are the two types of EDM machines?

The two main types of EDM machines are sinker EDM machines and wire EDM machines.

Source: Machining 101: What is Electrical Discharge Machining?

What is sinker EDM?

Sinker EDM uses an electrode as its “cutting” tool, with the shape of the electrode serving as a mirrored, slightly smaller image of the finished form it will produce in the workpiece. The electrode makes one spark at a time — but the frequency of the current means the tool could produce anywhere between 500 and 30,000 sparks per second.

Electrodes for sinker EDM are typically either copper or graphite.

Source: Machining 101: What is Electrical Discharge Machining?

What is wire EDM?

Wire EDM feeds a strand of wire from a supply spool to the workpiece via a wire drive system. The wire is energized by electrical contacts and passes through the workpiece at a specific velocity determined by the operation at hand. A stream or bath of deionized water surrounds the wire, and sparks are continuously emitted along the length of the wire. Rollers pinch the wire and provide tension, while guides above and below the workpiece position the wire on its path — helping it to achieve complex shapes on the workpiece.

The wires used in this process commonly have diameters of 0.010 to 0.012 inch, with finer wires at 0.001 to 0.004 inch. The material of the wires also holds great influence over the operation’s success, as hard wires that have insufficient tensile strength for an operation are liable to break under sudden shock. Softer wires prove more desirable for high-taper cutting operations.

Source: Machining 101: What is Electrical Discharge Machining?

What is swarf?

During the EDM process, the operator moves the electrode or wire as needed and rapidly turns the current on and off. This accommodates the flushing of molten material (often called “swarf” or “chips”) that is removed from the workpiece.

Source: Machining 101: What is Electrical Discharge Machining?