In general, the material characteristics of the electrode play a much larger role in achieving a fine surface finish than one might think. When we think of fine finishes, we may envision something similar to a glossy finish that reflects light very easily.

Conversely, in today’s mold design a fine finish means more than a surface that has been polished. Many of the molds that are currently being produced require a textured finish that must be consistent throughout the cavity. In light of this, any variation of the texture within the cavity stipulates that the finish be retextured through additional EDM processes, acid etching and so forth. These actions require additional time and increased costsā€”therefore limiting the profitability of the application.

With a high quality electrode material, the surface finish of the cavity is one area where opportunity exists for savings of time and costs while still producing a quality mold. A high quality electrode material can be thought of as a material of small particle size and having a consistent microstructure and uniformity between the particle size and porosity.

While the material characteristics may be perceived as a quality material by the manufacturer, the surface finishes obtained from these materials will vary significantly under the same EDM parameters.

As previously stated, the microstructure of the electrode material plays a vital role in the ability to achieve a quality EDM finish in the cavity. As the EDM cavity is a replication of the microstructure of the electrode, the ability to obtain fine surface finishes is limited with materials of inconsistent structures. If a low- to mid-quality electrode material is used in a textured cavity, there is an increased risk that the texture will be uneven. Also, since various components of the mold are often outsourced to different companies, this increases the potential that the textured finish will be mismatched.

If this occurs, the most common means to rectify the situation is to acid etch the cavity. In the etching process, the EDM finish must first be removed; therefore, allowing the etching to take place. This creates another issue in itself as sufficient stock must remain in the cavity for the etching process. If inadequate amounts of stock remain in the cavity, the etching depth will be limited and may not provide satisfactory results. Therefore, this increases the importance of getting the job done with the right combination of electrode material and machine parameters.