At Novick, we believe in trust and collaboration when dealing with our customers. Collaboration includes the responsibility to keep our customers well informed, as a customer that knows the strengths and weaknesses of their electrodes stands to gain time and money. There are many different applications that call for EDM Small hole drilling, and one electrode’s weakness in one application may be a strength in another. This and all of the other different variables encountered in EDM—such as workpiece material and machine settings—can make it difficult to choose the right electrode.
With the wide array of electrodes available on the market, you will be sure to find one that fits your particular EDM machine or equipment. EDM drill Electrodes doing well on your small hole EDM machine depend on two simple variables:
- The type of material that the electrode is made of—brass, copper, or tungsten carbide.
- The type of flushing hole or the desired internal diameter of the electrode. This is either a single hole diameter with no other internal walls or is a multi-channel type internal hole with multiple walls throughout the length of the electrode. Some electrodes dispense with the internal channels altogether. These are rods.
- Let’s first discuss the main two types of EDM tubing material: brass and copper. 97% of all applications for EDM electrode hole-popping involve either brass or copper electrodes.
Brass EDM tubes are used on the largest variety of electrically conductive materials and metals to small hole drill. If you are not quite sure which electrode material to start out with, brass is probably the best bet. Due to the molecular composition of brass, it will remove material at the fastest rates when applied to certain alloys, tool steels, stainless steels and rare metals.
Brass is fast at the expense of wear rates. Brass electrodes tend to wear out much faster compared to copper electrodes at the point of spark contact with the workpiece, and this should be taken into consideration on long running hole burns or EDM holes that are very deep. This fast wear rate becomes a particular problem when attempting to burn through stubborn materials such as carbide or tungsten carbide.
The brass we recommend is 99.995% pure and is comprised of approximately 70% copper and
Copper tubing can be used for small hole drilling in all material types. Because of its molecular composition, copper tends to last longer during hole burning compared to brass.
One unique characteristic of copper is its ability to drill through very hard materials such as carbide and tungsten carbide. This is because it has a slower and steadier burn rate that results in a low wear rate. When EDM small hole drilling with a depth to width ratio of greater than 100 to 1 this also tends to be ideal because a lower amount of tapering will leave a more accurate and straighter hole.
The copper tubing that we recommend is 99.995% pure.
Where even copper comes up short, tungsten carbide picks up the slack. An incredibly rigid and tough material, tungsten carbide’s singularly low wear rate allows it to cut through exotic materials. Its toughness also frees it from many of the dimensional restrictions placed upon brass and copper tubes. A defect free and stable electrode can be made with tungsten carbide to half the size of the smallest brass or copper electrodes.
This toughness, however, comes at a price. Such a robust material is expensive to work with, and tungsten carbide electrodes are correspondingly more expensive. This makes tungsten carbide more of a rarity, but in its limited applications, it shines.
Tungsten carbide electrodes are made with 6% cobalt.
Copper-tungsten occupies the niche between copper and tungsten carbide electrodes. Copper-tungsten electrodes are manufactured by infiltrating a tungsten matrix with molten copper, and the resulting material combines the characteristic of both. Its ability to drill through tough materials is intermediate between copper and tungsten carbide, and like tunsten carbide, it can be manufactured in smaller diameters than brass and copper electrodes.
What makes copper-tungsten truly unique is its availability in foil form. Copper-tungsten is a very machinable material, due to the softness of copper, and sheets of copper-tungsten are perfect for shaping into odd shapes for specialized machining jobs. Copper-tungsten foil is especially useful in stress testing.
Silver-tungsten is a true specialist. Similar to copper-tungsten in its manufacture, silver-tungsten is metal matrix composite created by infitrating a tungsten matrix with molten silver. The characteristic that sets silver-tungsten electrodes apart is conductivity. Pure silver is too soft for practical use, but the robustness of a tungsten matrix solves this problem.
The conductivity of silver-tungsten results in holes with a very smooth surface finish. This is very important when holes with well-defined corners need to be drilled.