With easy-to-choose guidelines for every machining requirement, these six ISO S geometries ensure optimization in roughing to finish turning of heat resistant super alloys and titanium machining. Whether you have continuous or interrupted cuts, they improve productivity, provide first rate process security and fulfill surface quality demands.
The six new insert geometries are designed to handle depths of cuts from 0.2 to 10 mm (0.008 – 0.393 inch) with great chip control and low tool pressure. Four geometries are introduced for moderate to small depths of cuts in light roughing to finishing applications. Two stronger geometries are introduced for larger depths of cut in roughing or light roughing.
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Anything for drilling titanium? BTA drilling titanium?
There are numerous solutions to drilling titanium depending on hole size and accuracy required. For rough opening of holes using an indexable drill I suggest the CoroDrill 880 (4 edge inserts for good economy) Excellent positive geometries for low cutting forces. We have holding methods to produce very accurate holes with this style of drill as well. You mentioned BTA drilling, which would be the drilling of deeper holes up to 100XD. For this our solutions include CoroDrll 805 that can be applied on many machine tools, CoroDrill 800 which is mostly used on custome Deep Hole Machines, but can also be adapted to milling machine. CoroDrill 800 heads are used with coolant tubes attached and applied to a Single Tube System (STS) or a Double Tube System (Ejector). Each of these tooling solutions has applications in titanium. If you would like more information please contact my email address and we can get into specifics.