How to Conquer Deep-Hole Drilling Challenges
BTA drilling is an effective method of drilling deep holes, as it is cleaner, reliable and capable of achieving larger diameters at higher feed rates. BTA drilling is effective in holes from 20–200 millimeters (0.80–8.00 inches), a more extensive size range than gundrilling and carbide twist drills.
Gundrilling was originally developed to drill out gun barrels and is commonly used for drilling smaller diameter deep holes. The depth-to-diameter ratio can be even greater than 300:1. The critical feature of gundrilling is that the bits are self-centering, which enables such deep, accurate holes.
Carbide twist drills with through-coolant holes are also commonly used in several deep-hole drilling applications. The challenge is to manufacture and regrind these drills with minimal runout, which requires an additional axis on machines to support the flute grinding process.
One of the most significant challenges of deep-hole drilling is maintaining control of runout, which increases with cutting tool length.
Three Ways to Conquer Deep-Hole Drilling Challenges
1. Through coolant or internal coolant. Coolant can improve chip evacuation while cooling the cutting edge. Coolant is flushed down to the bottom of the hole, pushing the chips back up toward the top. Software is available that helps design and verify the coolant holes at the design stage, avoiding coolant holes breakage into flutes and eliminating scrap.
2. Hole straightness. The “margin or radial land” is the portion of the drill that contacts the hole. A single-margin drill (one margin per flute) is preferred in long-chipping materials. This is because single-margin drills provide additional clearance in the longer chipping materials. In contrast, a double-margin drill (two margins per flute) provides excellent hole straightness compared with a single-margin drill.
Although not as common, double-margin drills with a floating second margin are also available where a compromise can be made on hole straightness and chip evacuation, so more margins add accuracy while maintaining a higher surface finish but restrict the amount of clearance for chip evacuation.
3. Tool runout control. One of the most significant challenges of deep-hole drilling is maintaining control of runout, which increases with cutting tool length. Consider a more accurate method of toolholding that can deliver minimal runout and longer cutting tool life that includes a high-precision collet adapter and tool support system.
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