Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters

China Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters, Find details about China Graphite Parts, Carbon Graphite from Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters

Density
1.91-1.95 g/cm3
Electrical Resistivity
11-13
Flexural Strength
No Less Than 60 MPa
Compressive Strength  MPa
More Than135
Thermal Conductivity
85W/M*K
Trademark
L. T
Transport Package
Cartons in Wooden Cases
Specification
personalized customized
Origin
Cn
HS Code
3801909000
Density
1.91-1.95 g/cm3
Electrical Resistivity
11-13
Flexural Strength
No Less Than 60 MPa
Compressive Strength  MPa
More Than135
Thermal Conductivity
85W/M*K
Trademark
L. T
Transport Package
Cartons in Wooden Cases
Specification
personalized customized
Origin
Cn
HS Code
3801909000
oxidation resistant isotropic graphite rotors and vanes for space heaters                                                   
                                                                                                            lttrade.en.made-in-china.com



A: Company profile
    L.T Group has a comprehensive product and technology portfolio that focuses on
four fields of graphite - ultrafine particle graphite mould, graphite electrode, graphite
crucible, as well as other products mainly made of graphite.

 Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters



B: Why choose us
  Graphite mould 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

Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters

  Our mold features:
Raw materials is 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.Surface can be treated with anti-oxidation.
  Application:
 Graphite tubes/poles have a wide application fields, such as:
 a.Used in furnaces because of graphite's low heat sensitivity
 b.Used for Aluminum degassing
 c.Used in the production of fluxing tubes used in the metal manufacturing industry
 d.Other industries using graphite tubes include chemical and scientific industry


Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters

D: 
Processing method

1. Customer provide design drawings.
2. Our technical team will check, analyze the drawings, and divide the drawing to
reasonable
parts if needed, and prepare proper graphite blocks .Our mechanics will design and
customize
grinding wheel.
3. Our workers will grinding and polishing 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.
During the
assembling period, unqualified products will be picked out.

Oxidation Resistant Isotropic Graphite Rotors and Vanes for Space Heaters

E:Tech Data
ItemsLT-8
Bulk Density  g/cm31.91-1.95
Electrical Resistivity  uΩ·m11-13
Flexural Strength  MPa≥60
Compressive Strength  MPa≥135
Thermal Conductivity  W/m*K85