The SG-28 silicon nitride ceramic thermocouple protection tube is made of silicon nitride, compared with other materials such as cast iron, graphite, and carbon nitride, it can not be corroded by molten aluminum. It has very good thermal conductivity, so it responds quickly to temperature changes and has high sensitivity. It is widely used in temperature measurement and protection of non-ferrous molten metal such as molten aluminum. It has light weight and long service life, and easy to be used and maintained.

Filled with high thermal conductivity Nano-materials, HTE high thermal conductivity immersion heater with non-filled heaters, the thermal efficiency is increased by more than 15%. Compared with traditional upper radiant heater tubes, it saves energy by more than 50%. It is more efficient, safer, more advanced, more environmentally friendly, and easier to control accurately.

The SG-28 silicon nitride ceramic thermocouple protection tube is made of silicon nitride, compared with other materials such as cast iron, graphite, and carbon nitride, it can not be corroded by molten aluminum. It has very good thermal conductivity, so it responds quickly to temperature changes and has high sensitivity. It is widely used in temperature measurement and protection of non-ferrous molten metal such as molten aluminum. It has light weight and long service life, and easy to be used and maintained.

SG-28 Silicon nitride ceramic riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

TA-03 maintenance free aluminum titanate ceramic lined launder series does not absorb moisture and has unique non-wetting properties needed to paint boron nitride on the surface. It has better thermal shock resistance.

TA-03 Aluminum titanate ceramic stalk/riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

SG-28 silicon nitride ceramic heater protection tube has strong resistance to high temperature, corrosion, and thermal shock in molten aluminum. It can withstand the heat load of heating elements or burners for a long time and has a service life of more than one year. Silicon nitride does not react with molten aluminum, so can guarantee its purity.

Filled with high thermal conductivity Nano-materials, HTE high thermal conductivity immersion heater with non-filled heaters, the thermal efficiency is increased by more than 15%. Compared with traditional upper radiant heater tubes, it saves energy by more than 50%. It is more efficient, safer, more advanced, more environmentally friendly, and easier to control accurately.

SG-28 Silicon nitride ceramic riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

TA-03 Aluminum titanate ceramic stalk/riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

OS-11 O'Sialon ceramic stalk/riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

SG-28 Silicon nitride ceramic riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

TA-03 Aluminum titanate ceramic stalk/riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

OS-11 O'Sialon ceramic stalk/riser tube replace conventional cast iron or common refractory riser tubes, and are impervious to penetration in molten aluminum and highly corrosion-resistant, providing a longer service life compared to conventional materials. It is less likely to stick to aluminum and reduces slagging on the tube wall, making routine maintenance easier while reducing downtime losses.

With non-wetting properties close to those of boron nitride, O'Sialonn ceramics do not stick to aluminium and do not wear out, can be repeatedly immersed and removed from molten metal without preheating, making them the ultimate choice of rotor material. The high density and strength of O'Sialon ceramics ensure reliable and stable rotation of the degassing rotor at high speed(≧500rpm). The degassing rotor breaks up air bubbles to the millimetre or even micron level, slowing down the rate of bubble uplift and increasing the number of bubbles and their dispersion in the molten aluminium.