Cordierite Ceramic Catalytic Substrate Converter

China Cordierite Ceramic Catalytic Substrate Converter, Find details about China Catalyst, Ceramic Honeycomb from Cordierite Ceramic Catalytic Substrate Converter

Model NO.
CHC
Component
Catalytic Converter
Main Market
South America
Material
Cordierite
Size
Diameter<120mm/Diameter<200mm, etc
Cell
100-600cpsi
Usage
as Catalyst Used in Automobile/Motorcycle
Shape
Round, Square, Oval, Racetrack
Trademark
DXY
Origin
China
Model NO.
CHC
Component
Catalytic Converter
Main Market
South America
Material
Cordierite
Size
Diameter<120mm/Diameter<200mm, etc
Cell
100-600cpsi
Usage
as Catalyst Used in Automobile/Motorcycle
Shape
Round, Square, Oval, Racetrack
Trademark
DXY
Origin
China
Cordierite Ceramic Catalytic Substrate Converter
Cordierite Ceramic Catalytic Substrate Converter


Honeycomb Ceramic Substrate is made of cordierite, and it is used for car catalytic converter. Honeycomb Ceramic Substrate have a very competive substrates. We can produce 100CPSI, 200CPSI, 400CPSI, 600CPSI can be in the shape of round, racetrack and ovral. It can be coated with the catalyst and the noble metal of Pt, Pd, Rh as the customers emission standards: Euro II, EuroIII and EuroIV and so on.

Application: Automobile exhaust purification catalyst carrier, suitable for Automotive vehicle exhaust purifiers (European standard) supporting

Specifications:
*Pore density: 600 cells/square inch, 25 cells/square inch
*Materials include cordierite, mullite cordierite, mullite and high alumina
*Pore shapes: Circular, rectangular and triangle
*Product section: Circular, square, rectangular, oval, lane-shape and special-shape
*Max. Outside dimensions: Diameter 300mm, height 355mm
*Low thermal expansion coefficient
*High porosity of hole on the wall, good liquidity and uniform distribution
*High temperature resistance, chemical corrosion resistance, thermal shock resistance and thermal shock resistance is strong
*The pressure drop is small
*Cold start performance is good, low light-off temperature, high conversion efficiency