Coatings are typically applied on cutting tool inserts using chemical vapor
deposition (CVD) or physical vapor deposition (PVD). In either case,
imperfections in the coating’s outer layer can occur as a result of coating
application, according to Iscar (Arlington,
Texas). High heat followed by cooling during CVD can leave behind micro-sized
cracks in the coating. Although PVD does not involve high heat like CVD, the PVD
process can leave behind tiny droplets of coating material on an insert’s
surface. These ragged surface imperfections adversely affect chip flow and
insert life.
Such issues led Iscar to develop a proprietary, post-coating finishing
process to improve insert surface quality. The company’s Sumo Tec finishing
process smoothes any cracks in the outer TiN coating that develop during CVD and
also removes droplets that PVD might leave behind. The resulting reduction in
friction, heat and surface stresses is said to extend tool life and cutting
performance. In addition, the process improves insert toughness and chipping
resistance to reduce the chance of a built-up edge condition, the company
says.
An example of the droplets inherent with the PVD coating process can be seen
in the left-hand, close-up shot on this page. The right-hand image shows how the
droplets have been removed via the Sumo Tec finishing process. The portions of
the insert that received the finishing process are black in color.
 |
|
Sumo Tec insert technology is being applied for new turning
(shown here), milling, drilling and grooving tool
designs. |
In addition to the finishing process, Sumo Tec insert technology features a
new series of tungsten carbide grades. It is used with new versions of Iscar
milling, turning, drilling and parting/grooving tools. For example, the Sumomill
T290 end mill family provides a number of cutting edges on a small tool diameter
to enable increased feed rates and high metal removal rates. The tangentially
helical inserts are clamped on the periphery of the tool body. The resulting
large tool body core is said to provide high torsion resistance.
The expanded Heliturn LD family of turning tools uses helical inserts
designed with highly positive, radial cutting edges and positive rake angles.
This combination results in reduced cutting forces. A new lever-clamping tool
design facilitates chip flow, particularly when performing longitudinal turning,
undercutting and round profiling.
Iscar’s Sumodrill line uses adjustable, replaceable cartridges to perform
rough drilling operations ranging in diameter from 61 mm to 80 mm. Spacers of
varying thicknesses can be used to bring the interchangeable tool cartridges to
the required diameter.
The Tang-Grip line of parting tools also has a tangential insert design. The
single-ended insert can perform parting, grooving and interrupted grooving
operations. Tang-Grip tools have a tangentially oriented insert pocket to allow
parting at high feed rates. The tool have no upper clamp to improve chip flow
and reduced the likelihood that streaming chips will damage the tool body. These
tools have been designed so that the insert won’t pull away from the tool body
during retraction.
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