DRILLING INSERTS SUPPLIERS,GROOVING INSERTS MANUFACTURERS,CARBIDE INSERTS

DRILLING INSERTS SUPPLIERS,GROOVING INSERTS MANUFACTURERS,CARBIDE INSERTS,We offer round, square, radius, and diamond shaped carbide inserts and cutters.

Solid Carbide Drills Improve Chip Flow, Evacuation

Seco Tools’ Feedmax -N solid carbide drills are designed for high-performance drilling in aluminum and nonferrous materials. The drills feature a WCMT Insert geometry that is wider and deeper than standard drills to improve chip flow and evacuation. The tools are available in diameters ranging from 0.gun drilling inserts 1" to 0.551" with a 3×D drilling depth.

The drills’ coating has a lower silicon (Si) content to effectively machine aluminum with less than 10 percent Si, as well as brass, zinc and magnesium. According to the company, the tools achieve increased output and reliability as well as fewer deburring issues. The geometry features a conical front clearance with a 12-degree relief angle and 140-degree point angle, with narrow land margins that are thinner than standard drills to reduce friction and edge buildup. The drills also have an increased back taper for axial relief. The inserts’ edge preparation provides for light cutting and less stress. 


The Carbide Inserts Blog: http://jasonagnes.mee.nu/

Grooving Tool Features Coolant Delivery System

Arno Werkzeuge USA offers its SE system of cutting tools and bar peeling inserts inserts designed to optimize turning, grooving, parting-off and copy turning operations. The monoblock holder uses double-ended inserts for high-productivity machining operations. The SE system also includes the Arno Coolant System (ACS) providing tool coolant directly to the cutting edge for maximum tool life and performance. A double-V insert seat design ensures accurate and secure location. In combination with a fixed stop, it ensures precise insert repeatability.

The Machining Inserts series is available in a variety of tooling configurations and sizes, including inserts with groove widths from 0.079" to 0.236" (2 to 6 mm) with three geometries and available in five different grades. The M2 sintered geometry is designed for grooving, turning and copy turning in steel and stainless steel. The T1 sintered geometry is for machining steels and stainless steel materials, as well as thin-wall machining. The ALU high-precision ground geometry is available for nonferrous materials, from aluminum to plastic.

Shanks come in inch sizes of 5/8" ¾" and 1", and in metric sizes of 12, 16, 20 and 25 mm, with depth capacities of either 0.472" or 0.827" (12 or 21 mm).


The Carbide Inserts Blog: https://ccmtinsert.bloggersdelight.dk

Turn Mill CNC Enables CAD Visualization, Interpolation Turning

Heidenhain’s TNC 640 turn-mill CNC enables interpolation turning and gear hobbing for machining large parts, such Carbide Threading Inserts as those required for power plants. The model adds cycles and features including new manual probing cycles designed to ease workpiece setup, as well as enhanced graphics.

When the interpolation turning feature is in use, the machine tool’s linear axes move along a circle, while the cutting edge with the milling spindle is oriented toward either the center of rotation (outside machining) or away from it (inside machining). Interpolation turning is well-suited for manufacturing large, rotationally-symmetric sealing surfaces such as the housings of some energy generation components.

Cycle 880 is a machining process for hobbing of external cylindrical and helical teeth, performed through synchronization of the tool and lathe spindles. The cycle positions the rotary axis to the required tilted position, then Milling inserts performs the in-feed movements to the workpiece in the radial direction and the milling movements in the axial direction.

Another feature is the ability to determine the 3D basic rotation for a plane surface as a manual probing function. The misalignment of a surface can be measured by probing three points in any direction on that plane. Subsequently, the result can be transferred to the datum table and/or the workpiece can be aligned.

The new graphics package includes a CAD viewer that opens any .step, .iges or .dxf file, enabling an operator to evaluate the workpiece at the control. Dynamic collision monitoring (DCM) is available with an M3D converter, which enables CAD files of components in the machining envelope to be merged, edited and added to collision monitoring. 


The Carbide Inserts Blog: http://good-time.blog.jp/
カテゴリ別アーカイブ
  • ライブドアブログ