Global Catalog Metric 8-16-23 web - Flipbook - Page 15
Coatings
Ti-NAMITE® and Di-NAMITE® Tool Coatings are
specifically engineered for KSPT solid carbide
rotary tools. The coating lineup includes proprietary
processes that result in optimized tool life and
increased speed and feed rates in a variety of
applications.
Coating
Titanium
Nitride
(TiN)
®
®
®
®
Aluminum
Titanium
Nitride
(AlTiN)
Titanium
DiBoride
(TiB2)
Crystalline
Diamond
(Diamond)
®
gold
dark
grey
Proprietary
(TM)
Proprietary
(TH)
Multilayer
Nano
structure
1–5
microns
1–5
microns
1–2
light
grey-silver Monolayer microns
Titanium
Carbonitride pink-red
(TiCN)
Proprietary
(TX)
®
Coefficient
Identifying
Layer
Hardness
Thermal
Thickness
of Friction
Color
Structure
(HV)
Stability
(Fretting)
black
black
copper
copper
Multilayer
1–5
microns
Nano
1–5
Composite microns
6–20
Monolayer microns
Nano
1–5
Composite microns
Nano
1–5
Composite microns
2200
3700
0.40–0.65
0.30
General Information
600°C /
1112°F
A general purpose coating with
good adhesion and abrasion
resistant properties. Suitable for
a wide variety of materials.
1100°C /
2010°F
Excellent thermal and chemical
resistance allows for dry cutting
and improvements in performance
of carbide. The coating has a high
hardness giving great protection
against abrasive wear and erosion.
4000
0.10–0.20
850°C /
1562°F
This ceramic based coating ensures
a smooth surface and a low affinity
to cold welding or edge build
up, which makes it optimal for
aluminum, copper, and other nonferrous applications. It has high
toughness and high hardness.
3000
0.30–0.45
400°C /
752°F
A very wear resistant coating
with high toughness and shock
resistance. Good in interrupted cuts
found in applications like milling.
3600
>8000
3600
3800
0.45
The structural design of
Ti-Namite-X is adapted to meet
a diverse range of applications;
everything from high- and low1150°C / alloy steels to hardened materials
(up to 65 HRC core hardness).
2100°F
Ti-Namite-X is suitable for operations
which require high cutting speeds,
high temperatures at the cutting
edge, and high metal removal rates.
800°C /
1470°F
This is the hardest coating
available with the best abrasion
resistance. Diamond coating is
suitable for machining highly
abrasive, non-ferrous materials
such as CFRP and graphite.
0.45
1150°C /
2100°F
Features include high wear
resistance, reduced friction, and
excellent prevention of edge build
up. This coating provides superior
material removal rates and tool life
when used in high performance
operations with difficult to
machine materials like titanium.
0.30
This coating demonstrates a
superior combination of hardness
and adhesion in hard machining
of molds and dies and machining
1100°C / high-alloy stainless steels for high
temperature applications such
2010°F
as turbines. The smooth surface
ensures optimum surface quality
and decreases the temperature in
the cutting zone by reducing friction.
0.15–0.20
Other coatings available upon request.
https://kyocera-sgstool.co.uk/
15