Open End Ceramic Tubes

Luxal open end ceramic tubes
These tubes, made of heat-resistant sintered corundum material, are suitable for operating temperatures of up to 1,800°C. Therefore, the tubes are widely used in various high-temperature applications, including for the structural parts of thermal equipment, heating element carriers, firing equipment, etc.
Operating temperature up to 1,800 °C Flexural strength of min. 300 MPa Thermal shock resistance of min. 150 K
Lunit 20/1350 open end ceramic tubes
These tubes, made of heat-resistant porous mullite-corundum material, are suitable for operating temperatures of up to 1,350°C. Therefore, the tubes are widely used in various high-temperature applications, including for the structural parts of thermal equipment, heating element carriers, firing equipment, etc. Made of Lunit 20/1350 - porous mullite-corundum material containing 80% Al2O3.
Operating temperature of up to 1,350°C Flexural strength of min. 10 MPa Thermal shock resistance of min. 250 K

Lunit 73 open end ceramic tubes
The tubes, made of heat-resistant non-porous mullite-corundum material, are suitable for operating temperatures of up to 1,550°C. Therefore, the tubes are widely used in various high-temperature applications, including for the structural parts of thermal equipment, combustion tubes used in measuring carbon and sulfur content in steel and alloys, firing equipment, etc. Made of Lunit 73 - sintered mullite material containing 60% Al2O3.
Operating temperature of up to 1,550°C Flexural strength of min. 120 MPa Thermal shock resistance of min. 150 K
Lunit 20 open end ceramic tubes
These tubes, made of heat-resistant porous mullite-corundum material, are suitable for operating temperatures of up to 1,600°C. Therefore, the tubes are widely used in various high-temperature applications, including for the structural parts of thermal equipment, heating element carriers, firing equipment, etc. Made of Lunit 20 - porous mullite-corundum material containing 80% Al2O3.
Operating temperature of up to 1,600°C Flexural strength of min. 30 MPa Thermal shock resistance of min. 250 K