|
CARBON / GRAPHITE
GENERAL
PROPERTIES
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GRADE:
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Lectromet
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Electro
|
Aeromet
|
ESPI
Super Conductive
|
|
Average Apparent Density gm/cm3
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1.65
|
1.74
|
1.80
|
1.82
|
|
Coefficient Thermal Expansion 10-6 0F
|
4.3
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4.6
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4.7
|
4.7
|
|
Electrical Resistivity 70 0F uohm-in
|
750
|
630
|
580
|
690
|
|
Outgassing
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Negligible
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Negligible
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Negligible
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Negligible
|
|
Compressive Strength (psi)
|
15000
|
18000
|
22500
|
27000
|
|
Flexural Strength (psi)
|
7500
|
9500
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13300
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17500
|
|
Tensile Strength (psi)
|
5000
|
7000
|
10000
|
10000
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|
Porosity (um)
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0.6
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0.7
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0.8
|
0.8
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Machinability
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Excellent
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Excellent
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Excellent
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Excellent
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MATERIAL
OVERVIEW
Characteristics:
Relatively soft greasy feel; steel gray to black color
with a metallic sheen.
High electrical and thermal conductivity.
Resistant to oxidation and thermal shock.
Graphite has characteristics representative of
both metals and nonmetals and thus is generally
classified as a metalloid. It is the thermodynamically
stable modification of carbon at high temperatures
and, once formed, no phase transitions occur on
cooling to room temperature.
Graphite has thermal and electrical
characteristics usually associated with metals. Also,
these are the properties most affected by the
anisotropy of graphite.
Graphite
is highly refractory material. In comparison to other
elemental substances, its vapor pressure is quite low.
Sublimation (-3350 °C) precedes melting (-3700 °C)
at normal pressure.
Compared to metals and ceramics, the elastic
modulus of graphite is quite low and is affected by
the directionality of the atom layers. Measured values
for polycrystalline commercial graphite can differ by
a factor of two or more because of this directional
effect. The modulus of graphite increases with
temperature. Graphite is a soft material even though
the hardness within the atom layers approaches that of
diamond. The softness is a result of the weak bonding
between atom layers which provide little resistance to
interlayer movement.
The
specific heat of graphite at room temperature is low,
significantly less than the classical figure of 6
Cal/g atom/deg. (it increases with temperature).
Polycrystalline commercial graphite has approximately
1/3 the thermal conductivity of copper. The
conductivity parallel to the atom layers is generally
somewhat greater than that in the perpendicular
direction. In pyrolytic graphite, the conductivity in
the direction of the atom layers is very high; in
fact, values exceeding that of copper have been
reported. The conductivity in the perpendicular
direction is lower by a factor of 100 or so. The
thermal conductivity of graphite decreases with
temperature. The
thermal expansion of graphite is low in comparison to
metals, being about 1/4 that of iron.
In the direction perpendicular to the atom
layers the thermal expansion is approximately onethird
higher
than that in the parallel direction. The rate of
expansion increases with temperature.
Graphite has excellent thermal shock resistance
for a brittle material due to its high thermal
conductivity, low thermal expansion and low elastic
modulus. Although
graphite is considered an electrical conductor, the
electrical resistivity of polycrystalline commercial
Graphite is several hundred-fold higher than that of
copper. At low and moderate temperatures, the
temperature effect is negative, but becomes positive
at high
temperatures.
The anisotropy of graphite is revealed most strikingly
by electrical resistivity measurements. For pyrolytic
graphite, the resistivity in the direction parallel to
the atom layers is lower by a factor of 1000 in
comparison to that in the perpendicular direction. The
ratio is appreciably less, approximately 100, for
single crystal graphite.
Graphite is highly inert to chemical attack at
normal temperatures. It is sufficiently oxidation
resistant for practical utilization at moderate
temperatures but deteriorates rapidly at high
temperatures.
The chemical activity of graphite is increased in the
presence of very strong oxidizing agents. Several
ionic lamellar-type compounds have been prepared but
their isolation is difficult due to instability. A
deep blue coloration is a common characteristic of
these substances. Oxygen or fluorine can enter the
Graphite structure in a layered pattern.
However, covalent rather than ionic bonds are
formed, and in consequence, the metallic
characteristics of the graphite are lost.
Because of the high temperatures required
during synthesis, Graphite is reasonably free of
elemental impurities. Further purification can be
achieved through use of a halogen-containing
atmosphere during graphitization or in a
post-synthesis treatment.
Hazards: (powder, natural) Fire risk.
Tolerance, 15 million particles/ft3. Low toxicity. We can
supply thin masks of our high-purity graphite. They
are available in varying sizes and would be made in
accordance with customer’s specifications.
Our
various grades are listed as follows:
Lectromet
Grade Graphite:
Typically used as cups for growing silicon crystals
and other similar applications.
Electro
Grade:
For use in metal alloying unitized boats. Electro
chemical, precious metal plating, excellent corrosion
resistance as well as wetting resistance.
Aeromet
Grade:
For use in aerospace applications such as missile
components, rocket nozzles, etc.
ESPI
Super-Conductive Grade:
For use in the electronic field when high purity is
required;
nuclear
applications for neutron absorption epitaxial heaters,
etc.
These
various grades and types are available in rod and
plate stock and can be supplied in
varying
sizes and shapes in accordance with customer’s
requirements.
TYPICAL
ANALYSES
Impurities
in ppm
|
Material
/ Purity:
|
Lectromet,
Electro & Aeromet Grades
|
ESPI
Super-Conductive Grade
|
|
Fe
|
100
|
1.0
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|
Si
|
80
|
0.75
|
|
V
|
100
|
1.0
|
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Ti
|
15
|
0.3
|
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Al
|
20
|
0.35
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Ni
|
10
|
0.2
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Cu
|
5
|
0.15
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ROD
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Material
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Grade
|
|
Graphite
Rod .0625 - 6.50”
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All
Grades Available
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Additional
diameters can be manufactured in 5-7 days.
Rod is cut to order and sold by the inch or foot.
FOIL
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Material
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Grade
|
|
Graphite
Foil .005”
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All
Grades Available
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|
Graphite
Foil .006”
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All
Grades Available
|
|
Graphite
Foil .007”
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All
Grades Available
|
|
Graphite
Foil .008”
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All
Grades Available
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|
Graphite
Foil .009”
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All
Grades Available
|
Foil
is cut to order and sold by the square inch.
SHEET
|
Material
|
Grade
|
|
Graphite
Sheet .010” to 4.0”
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All
Grades Available
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Sheet
thicknesses are available in increments of .001”.
Sheet is cut to order and sold by the square inch.
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