Silicon Carbide Ceramic Wear Resistant Pipe

Home » Products » Siliconized Silicon Carbide / SiSiC Products » Silicon Carbide Ceramic Wear Resistant Pipe
Silicon Carbide Ceramic Wear Resistant Pipe

Silicon carbide ceramic wear resistant pipe is produced by lining a sintered ceramic pipe inside a steel pipe with adhesive (mostly polyurethane). The bonding between the ceramic lining and the steel pipe is firm and fine, able to endure temperature from -50℃ to 1350℃. The ceramic lining features high rigidity, wear and impact endurance, corrosion resistance, smooth surface, and dust proofness. Its thickness varies from 6 to 25 mm. It is suitable for classification, concentration, dehydration of corrosive and coarse particles. At present, it has been widely used in mineral processing, irrigation works, and electric power industries.

The mounting of our silicon carbide ceramic wear resistant pipe is convenient. We also provide various SiSiC special-shaped parts, including cone, swirler lining, bend pipe, T-pipe, flanged pipe, nozzle, lining plate, etc.

Our company is a specialized silicon carbide ceramic wear resistant pipe manufacturer, based in China. We also supply silicon carbide ceramic bushing, silicon carbide ceramic beam, silicon carbide ceramic thermal pipe, and more.

Other Products
  • Desulfurization Dust Spray NozzleDesulfurization dust spray nozzle adopts SiSiC as its material which features high rigidity, low weight, surface precision, and endurance against wear, corrosion, oxidation and high temperature (below 1400℃). It can serve for over ten years in a wearing, corrosive and high-temperature environment without maintenance. It is widely used in desulfurizaiton and dedusting equipment due to its unobstructed passway and ...
  • Silicon Carbide Ceramic BeamSilicon carbide ceramic beam has advantages of high sturdiness, long lifespan, and endurance against oxidation and deformation. It is an ideal supporting component for various furnaces and kilns. Its excellent heat conductivity performance significantly reduces the energy consumption.