MOQ | 50 single |
Port | tianjin |
Packaging | Cartons in Wooden Cases |
Lead Time | 10 days |
Bulk Density | 1.80-1.91g/cm3 | Electrical Resistivi | 10-13 |
Flexural Strength | More Than 43MPa | Compressive Strength | More Than 80MPa |
Thermal Conductivity | 85-139.2W/M*K | Temperature Resistance | No More Than 4350 Degree |
Ash Content | 0.03% |
A:
Company
profile
L.T Graphite has an exhaustive item and
innovation portfolio that spotlights on four fields of graphite -
ultrafine molecule graphite shape, graphite terminal, graphite
cauldron, just as different items principally made of
graphite.
Graphite materials show one of a kind
properties, for example, great electrical and warm conductivity,
warmth and consumption obstruction, low grinding, and decreased
weight while simultaneously keeping up high quality. Because of
the lack of vitality and crude materials, our superior items
produced using graphite are in progressively popularity in
ventures. They likewise assume a continuously significant job in
regular day to day existence, along these lines substituting
customary materials.
B: Why choose
us
Graphite mold plays a dual role in the process
of diamond tools manufacture: Heating element
and Supporting mold. The quality of graphite
mold is very important, will directly affect the
next
diamond tools' accuracy and appearance. So,
which kind of graphite mold is suitable for
sintering
diamond tools:
a: Good performance on conductivity
and high rate resistivity
b: Enough Mechanical Strength
c: Good performance on Oxidation resistance
d: Durable
Our mold features:
Raw materials are very important, We only use
Ultrafine particle structure, High purity, and
High
graphitization raw graphite
materials.
Our finished graphite mold
is:
a: dense structure and low
porosity
b: Fined surface and low rate heat-deformation
c: High mechanical strength and machining accuracy
d: Oxidation resistance and durable
C:
Product features
1.The processing materials are ultrafine
granule structure, high purity and graphite with
high
graphitization degree.
2.High hardness, good anti-oxidation
performance, and high machining accuracy
3.Good conductivity, high resistivity,
sufficient mechanical strength
4.Small porosity and dense
structure.
5.Excellent thermal shock resistance,
conductive and thermal conductivity.
6.High-temperature resistance, corrosion
resistance, acid and alkali resistance, good wear
resistance.
7. The surface can be treated with
anti-oxidation.
D:
Processing method
1. Customer provides design
drawings.
2. Our technical team will check, analyze the
drawings, and divide the drawing into reasonable
parts
if needed, and prepare proper graphite blocks.
Our mechanics will design and customize
the
grinding wheel.
3. Our workers will be grinding and be
polishing the graphite block according to the instructions of
mechanics.
This process may need operating few times if
needed. We will strictly keep deviation within
±0.03-0.08mm.
4. Then our packing team will assembling
different parts into a whole graphite mold. In During
the
assembling period, unqualified products will
be picked out.
E: Manufacturing a
sintering mould
Understanding changes
in the coefficient of thermal expansion is very important when
designing a sintering mold. Our grades have been studied
over a wide range of temperatures and offer remarkable
stability.
A selectION OF GRADES
ACCORDING TO APPLICATIONS
The material used to manufacture a graphite mold is selected based on the process temperature and pressure requirements. Some of our grades are selected when the material's electrical and thermal conductivity are the prioritized parameters in order to reduce cycle time. When the process pressure is too high, the mechanical strength of the mold is prioritized. Our experts are at your disposal to discuss the best grades adapted to your specific needs.
Description | LT-4 | LT-5 | LT-7 | LT-8 |
Bulk Density g/cm3 | 1.8 | 1.85 | 1.85 | 1.91 |
Electrical Resistivity uΩ·m | 10-12 | 8.5-10 | 11-13 | 11-13 |
Flexural Strength MPa | 43 | 46 | 51 | 60 |
Compressive Strength MPa | 80 | 85 | 115 | 135 |
Thermal Conductivity W/m*K | 110 | 139.2 | 85 | 85 |
Temperature resistance ºC | 4350 | 4350 | 4350 | 4350 |
Ash content % | 0.03 | 0.03 | 0.03 | 0.03 |
Huixian Industrial Cluster District, Baiquan Town, Huixian, Henan, China