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Drill bits |
¡ô Representative top cutting-edge form |
| Profile |
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| Features | ¡ñ Major flank is taper surface, if it is closer to the Core bit,
¡ñ Normal profile, soft material and high hard materials can |
¡ñ Plane grinding major flank's drill bit, easy for grinding,
and with good grip performance
¡ñ Commonly used for small-diameter drill bit |
¡ñ Double apex angle's drill bits, with good centrality, and
less burrs when drill through
¡ñ It is the drill bit to process thin boards and profiles. |
¡ôChisel edge grinding
The closer, the rake angle of drill bit's cutting-edge to the drill bit, the smaller, the center part, and it is negative rake angle at chisel edge part. When cutting, the center part extrudes the materials, and the cutting resistance produced account for 50%-70%, but chisel edge grinding is very efficient in lowering the drill bit's cutting resistance, discharging the cutting produced at chisel edge part and improving cut-in performance. |
| Profile |
Type X |
Type XR |
Type S |
Type N |
| Features | Axial load is greatly reduced, cut-in performance is improved, and efficient when the core bit diameter is large |
Cut-in is not as good as that of Type X, but cutting edge strength is high,work piece material is widely applicable,andlifetime is long |
General machining of steel, casting steel and non-ferrous metal |
Efficient when the diameter of bit core is larger |
| Main application | General machining, machiningof deep hole | General machining of stainless steel | General machining of steel, casting steel and non-ferrous metal¡£ |
Machining of deep hole |
| ¡ô Chips when drill bit is processed |
| Cutting type | Profile | restrained by processed |
| 1. Taper helical | The fan chip from cutting edge is formed via chip flute ,when machining ductile materials at low feed, and will break when there are many rolls, so chip discharge is good |
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| 2. Long gear | Formed chips don't crimp, and are discharged as is and easy to entwine drill bit when discharging |
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| 3 Fan | Chips are controlled by chip flute and processed hole-wall, formed at high feed, and chip disposal is good. |
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| 4. Over breaking | Taper helical chips are restrained by processed hold wall. Before growing into long way of mesh, chips are broken and discharged smoothly because of insufficient material plastics, so chip disposal is good |
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| 5. Z-profile | Formed chips are squeezed, folded due to profile of chip flute, material characteristics etc, and easily lead to jamming inside the flute |
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| 6. Needle | Brittle materials or small rolls of chips are formed by vibration breaking, chips are discharged smoothly, but sometimes they are jammed inside the flute |
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