STILLEN
Announces
CCM-X
,
The
next
generation
of
Carbon-Ceramic
Matrix
Brakes
for
the
Nissan
R35
GT-R.
The
STILLEN
R&D
team
continues
to
develop
industry-leading
performance
products
with
long-standing
technical
partner
AP
Racing.
Their
hard
work
has
resulted
in
the
release
of
the
next
generation
in
Carbon-Ceramic
Matrix
(CCM-X)
brakes
for
the
Nissan
GTR.
This
kit
utilizes
a
new
High
Thermal
Capacity
(HTC)
process
which
helps
pull
the
heat
from
the
CCM
disc
surface
deeper
into
the
3D
core
to
allow
the
discs
to
operate
cooler
through
more
efficient
use
of
internal
venting
and
air
flow.
We
have
also
homologated
a
new
Pagid
RSX1
pad
material
designed
specifically
for
our
new
CCM-X
discs
for
easier
bedding
and
higher
performance,
these
pads
are
ideal
for
use
on
the
street
and
for
track
days.
The
CCM-X
disc
assembly
hardware
has
been
updated
to
include
anti-rattle
springs
that
still
allow
the
full
benefit
of
a
floating
disc,
yet
eliminates
the
"noise"
associated
with
this
style
of
disc.
During
extreme
performance
testing
at
Auto
Club
Raceway
in
Fontana,
CA,
performing
back-to-back
repetitive
testing
runs
pushing
the
limits
of
brake
temperatures,
the
new
combination
of
HTC
CCM-X
discs
and
Pagid
RSX1
pad
material
reduced
disc
temperatures
from
an
average
of
1488F
to
1346F,
that's
142
degrees
cooler
than
the
previous
generation
CCM.
These
real-world
tests
confirmed
the
results
of
our
brake
dyno
testing
at
AP
Racings
lab
in
Coventry,
England.
Once
found
only
on
the
world's
most
expensive
supercars,
Carbon-Ceramic
Matrix
(CCM)
brakes
have
been
developed
for
the
first
specifically-tuned
aftermarket
application,
the
Nissan
R35
GT-R.
These
400mm
disc
assemblies
are
larger
than
the
standard
OE
iron
discs,
yet
reduce
weight
by
nearly
half.
This
is
rotating
and
unsprung
weight,
leading
to
improvements
in
all
performance
categories:
acceleration,
handling
and
braking.
After
three
decades
of
using
carbon-carbon
brakes
on
racing
vehicles
(even
longer
on
fighter
jets),
AP
Racing
CCM
discs
are
the
next
technological
platform.
Advancements
in
materials,
process
technologies
and
nanoparticle
technology
make
it
possible
to
use
a
special
carbon
fiber
precursor
along
with
new,
patented
process
techniques.
The
unidirectional
precursor
is
needled
into
a
3-Dimensional,
continuous
carbon
fiber
preform.
This
differs
from
lower
cost
technologies
that
use
loose,
chopped
strand
fibers
and
thin
woven
face
plies
bonded
on
as
a
friction
surface.
A
true
3D
matrix
is
stronger,
more
robust
and
provides
longer
life
than
the
more
brittle
alternative.
As
a
comparison,
think
quality
hardwood
versus
particle
board
or
MDF
with
a
veneer.
Converting
the
3D
preform
to
carbon-carbon
is
done
under
high
heat
and
pressure
via
methane
cracking
during
a
special
carbon
vapor
infiltration
(CVI)
process.
After
initial
machine
work,
a
final
conversion
process
results
in
a
full
matrix
carbon-silicon
carbide
(CSiC).
We
call
it
Carbon-Ceramic
Matrix,
or
CCM
for
short.
The
discs
are
then
sent
through
the
final
machining,
grinding,
and
balancing.
Of
course,
the
CCM
discs
are
now
so
hard
that
only
special
diamond
tooling
can
be
used!
Who
uses
these
ultimate
CCM
discs?
The
most
up-to-date
version
is
found
on
the
Koenigsegg
CCX
and
McLaren
MP4-12C.
And
now
-
STILLEN
and
AP
Racing
have
optimized
a
specific
set
for
your
R35
GT-R
and
its
factory
brake
calipers.
Note:
Due
to
the
dramatic
reduction
in
overall
mass,
brake
temperatures
will
run
higher
than
the
O.E.
iron
disc
system
given
the
same
usage.
STILLEN
strongly
recommends
using
AP
Racing
PRF
brake
fluid,
one
of
the
best
high
temperature
fluids
available.
PRF
is
used
in
the
most
demanding
Motorsports
applications
around
the
world.
STILLEN
Announces
-
R35
GT-R
Carbon-Ceramic
Matrix
(CCM)
Brake
Upgrade