Classified by Material
Metal wear-resistant tube
Carbon steel pipe undergoes special heat treatment or alloying treatment to improve wear resistance.
Alloy steel pipes: such as high chromium alloy pipes, bimetallic composite pipes, etc., are used in high wear environments.
Stainless steel wear-resistant pipe: It has excellent corrosion resistance and certain wear resistance.
Nonmetallic wear-resistant tube
Rubber wear-resistant tube: commonly used for conveying granular materials, with good elasticity and wear resistance.
Ceramic wear-resistant tubes, such as alumina ceramic tubes and silicon nitride ceramic tubes, have high hardness and excellent wear resistance.
Cast stone wear-resistant pipe: made from natural rock as a raw material, melted and cast, with extremely high wear resistance and corrosion resistance.
Composite wear-resistant pipe
Steel lined rubber wear-resistant pipe: A layer of rubber is lined on the inner wall of the steel pipe, combining the strength of the metal and the wear resistance of the rubber.
Steel lined ceramic wear-resistant pipe: A layer of ceramic lining is applied to the inner wall of the steel pipe to improve its wear resistance and corrosion resistance.
Bimetallic composite wear-resistant pipe: such as centrifugal casting composite wear-resistant pipe, the wear-resistant alloy layer is compounded with the base pipe through a special process.
Classified by structure
Integral wear-resistant tube
The entire pipeline is made of the same wear-resistant material, such as integral ceramic pipes, integral cast stone pipes, etc.
Composite wear-resistant pipe
Composed of two or more materials, such as steel-lined rubber pipes, steel-lined ceramic pipes, etc.
Welded wear-resistant pipe
Fix wear-resistant materials on pipelines through welding, such as wear-resistant alloy welded pipes.
Clamp-type wear-resistant pipe
Adopting a clamp connection method for easy installation and disassembly, suitable for occasions where the wear-resistant layer needs to be replaced frequently.
Classified by manufacturing process
Centrifugal casting wear-resistant tube
By using centrifugal casting technology, wear-resistant materials are cast onto the inner wall of the pipeline to form a dense wear-resistant layer.
Thermal spray wear-resistant pipe
Using thermal spraying technology to spray wear-resistant materials onto the inner wall of the pipeline, forming a uniform wear-resistant coating.
Welding wear-resistant pipe
By welding a layer of wear-resistant alloy on the inner wall of the pipeline through the welding process, the wear resistance of the pipeline is improved.
Paste a wear-resistant tube
Stick wear-resistant materials (such as ceramic tiles) onto the inner wall of the pipeline, suitable for situations that require high wear resistance.
Classified by application scenario
Mine wear-resistant pipe
Used for transporting high-wear materials such as ore and coal powder in mines.
Electric wear-resistant tube
Used for ash and slag removal systems in the power industry.
Metallurgical wear-resistant pipe
Used for material transportation and high-temperature flue gas emissions in the metallurgical industry.
Chemical wear-resistant pipe
Used for transporting corrosive media and particulate materials in the chemical industry.
In summary, there are various types of wear-resistant pipes, and users should comprehensively consider factors such as specific usage environment, conveying medium, temperature, pressure, etc., when choosing to ensure that the selected wear-resistant pipe can meet the requirements of use.
