Because silicon nitride materials offer a variety of performance benefits, silicon nitride tubes are frequently employed in various industries with harsh production conditions.

Silicon Nitride Cylinder Sleeve

The cylinder sleeve is an essential part of a reciprocating pump that provides a sealing surface between the piston and the cylinder. In order to lessen wear on the piston and cylinder to the maximum extent, it also serves as a wear surface.

One of the distinguishing characteristics of silicon nitride ceramic is its great hardness, which makes it exceptionally wear-resistant. In addition, it is highly resistant to chemical attack from acidic and alkaline fluids, which is a crucial property for many pumping applications. Furthermore, silicon nitride ceramic has a low thermal expansion coefficient, which enables it to withstand rapid temperature changes without cracking or warping. Because of this, it is the perfect material for pumps that operate in a wide temperature range.

Another benefit of silicon nitride cylinder sleeves is their ability to reduce friction between the cylinder and piston. The piston can move smoothly and efficiently thanks to the low friction coefficient of silicon nitride ceramic, which can raise the pump's overall efficiency. Reduced friction also results in less heat being produced when running, which prolongs the service life of cylinder sleeves and other pump parts.

Cylinder sleeves made of silicon nitride ceramics also have great resistance to corrosion and erosion. Numerous pumping applications include extremely corrosive or abrasive fluids, which can seriously wear down and damage traditional cylinder sleeve materials.

Silicon Nitride Liner Tube

Si3N4 liners are frequently used in the chemical and petrochemical industries to transport highly corrosive substances like acids and solvents, as well as in the mining industry to transport abrasive materials like coal, iron ore, and copper. This type of environment with high temperatures and strong corrosion is a great test for the liner. Silicon nitride ceramic is a material that has extremely high hardness and is more wear-resistant than metals; additionally, it is chemically inert, meaning it is resistant to corrosion in acidic or alkaline environments. Moreover, Si3N4 is resistant to high temperatures, and its thermal stability prevents the liner from cracking when exposed to extreme temperature variations.

Silicon Nitride Thermocouple Protection Tube

Silicon nitride tubes are extensively used as thermocouple protection tubes in temperature measurement applications. In comparison to materials like ceramic, metal, and quartz tubes, these Si3N4 tubes have various benefits, such as superior thermal shock resistance, high strength, and resistance to corrosion and wear. They can withstand temperatures as high as 1300°C when used as thermocouple protection tubes. Furthermore, they offer outstanding thermal stability and thermal shock resistance, meaning they can withstand rapid temperature changes without cracking or breaking, thereby are suitable for a variety of industrial applications.

Furthermore, silicon nitride tubes have great wear and corrosion resistance. As a result, they are perfect for usage in harsh and abrasive environments, such as chemical and petrochemical industries. Finally, silicon nitride tubes can shield thermocouples from the influence of irritating and corrosive chemicals. These tubes are an ideal option for measuring pH value and other chemical parameters since they can withstand strong acids and alkalis.

Silicon Nitride Lift Tube

One significant application of silicon nitride tubes is as the riser material in the manufacturing of aluminium and steel. These tubes are generally referred to as Si3N4 rising tubes or lift tubes. Si3N4 lift tubes are used to transfer molten aluminium from furnaces to casting machines in the manufacture of aluminium. The temperature of molten aluminium is around 700℃, necessitating the use of heat-resistant materials. Due to their high thermal conductivity and outstanding resistance to thermal shock, Si3N4 lift tubes are a good choice for high-temperature applications. They are also non-magnetic and resistant to the corrosion of molten aluminium, which can prevent the appearance of impurities in aluminum.

Furthermore, Si3N4 lift tubes can be used in continuous casting process in the steel industry. Continuous casting is a process in which molten steel is poured into a mold and then the solidified steel is continuously drawn from the bottom of the mold. The molds are installed on carriages that move along rails. In addition to transferring molten steel from furnaces to molds, these Si3N4 lift tubes can also be used to cool the solidified steel. They are always the first choice for the above application due to their superior resistance to high temperatures and thermal shock. Additionally, they are non-magnetic and resistant to molten steel corrosion.

Silicon Nitride Insulating Tube

In addition to being able to isolate high-voltage and high-current signals, silicon nitride tubes play crucial roles in high-temperature, high-voltage, and corrosive environments. Silicon nitride tubes provide excellent electrical insulating properties. Due to their high resistance and dielectric strength, silicon nitride ceramic is a perfect material for manufacturing components that can be subjected to high temperatures and high voltages in electrical insulation applications.