High thermal conductivity aluminum nitride crucibles
$151-9 Piece/Pieces
$1210-99 Piece/Pieces
$11≥100Piece/Pieces
Payment Type: | T/T |
Incoterm: | FOB |
Transportation: | Air |
Port: | Shanghai Pudong International Airport |
$151-9 Piece/Pieces
$1210-99 Piece/Pieces
$11≥100Piece/Pieces
Payment Type: | T/T |
Incoterm: | FOB |
Transportation: | Air |
Port: | Shanghai Pudong International Airport |
Model No.: AN-101
Brand: TecCeram
Place Of Origin: China
Shape: Pipe
Refractoriness: Common (1580°≪ Refractoriness≪ 1770°)
Color: Grey
Density: 3.3g/cm3
Thermal Conductivity: 180W/mK
Flexural Strength: 320MPa
Selling Units | : | Piece/Pieces |
Package Type | : | Paper box |
Wuxi Tecceram Fine Ceramic Co., Ltd, founded in 2013, is focus on high technique and high precision engineering ceramic products. Material include alumina (99.8%, 99% and 95%), 3mol% yttria stabilized zirconia (3Y-TZP, white color), super high bending strength and toughness nano-meter zirconia (3Y-TZP, blue color), high thermal conductivity aluminum nitride (AlN, grey color) magnesium oxide full stabilized zirconia (Mg-PSZ, yellow) and silicon nitride (grey color or black color ). The raw material of these ceramics are imported from German, Janpan and France.
A high thermal conductivity aluminum nitride crucible is a container made of aluminum nitride material that has excellent heat transfer properties. Aluminum nitride is a ceramic material with a high thermal conductivity, which means it can efficiently transfer heat from the heat source to the contents inside the crucible. The thermal conductivity of aluminum nitride crucibles allows for efficient heat transfer, reducing the time required for processes such as melting, sintering, or annealing. It also helps to prevent localized hotspots, ensuring uniform heating or cooling of the contents. Additionally, aluminum nitride crucibles have good thermal shock resistance, meaning they can withstand rapid changes in temperature without cracking or breaking. This property is important in applications where the crucible is subjected to frequent temperature fluctuations.
The high thermal conductivity of Aluminum Nitride Crucibles makes them ideal for applications that require rapid and uniform heating or cooling. They are commonly used in industries such as semiconductor manufacturing, where precise temperature control is crucial.
Aluminum Nitride Ceramic performance table Property Item Data Unit Mechanical Characteristics Color Grey Density 3.3 g/cm3 Bending Strength 320 MPa Compressive Strength 2,100 MPa Elastic Modulus 300 GPa Fracture Toughness 3.3 MPa m1/2 Vickers Hardness(HV0.5) 11 GPa Thermal Characterics Coefficient of Line Thermal Expansion 3.6 10-6 K-1 Thermal Conductivity 180 W/mK Thermal Shock Resistance (Put in Water) 400 ∆T °C Max Working Temperature (in air) 1,300 °C Electrical Characteristics Volume Resistance at 20°C >1012 Ωcm Dielectric Strength 14×106 V/m Dielectric Constant 1.7 εr One MHZ Dielectric Loss Angle at 20°C 3 tanδ Chemical Characteristics Nitric Acid (60%) 90°C 1 WT Loss mg/cm2/day Sulphuric Acid (95%) 95°C ≒0.00 Caustic Soda (30%) 80°C 0.2
In summary, a high thermal conductivity aluminum nitride crucible is a valuable tool in industries that require precise temperature control and efficient heat transfer. Its properties make it suitable for various high-temperature applications, ensuring uniform heating or cooling of the contents inside the crucible.
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