Ceramic lined elbow
|
The Wear ResisThe ceramic lined pipe is a high performance pipe consisted of
ceramic ring,seamless steel tuBackpack wear-resistant ceramic lined elbow are used for connecting
pipes of different diameters and find wide applications in various
chemicals, construction industries, paper, cement & ship
builders. SunnySteel´s Backpack wear-resistant ceramic lined elbow and avoids product attrition.It reduces considerabley degradation of conveyed material and avoids formation of angel hair through its patented deflection chamber. Backpack wear-resistant ceramic lined elbow for Pneumatic Conveying After the heating and curing, it forms a strong anti-friction layer. The production process of this product is relatively simple, the production cycle is short, the cost is relatively low. Pieces of ceramic compsited Ceramic lined elbows Export to TainlandIt reduces considerabley degradation of conveyed material and avoids formation of angel hair through its patented deflection chamber. Technical details of the Wear Resistant Ceramic lined Pipe
Features & Benefits:
Application:
Wear-resisting bend (wear resistant ceramic pipe)just as its name implies is a relatively traditional is more wear-resisting bend (wear resistant ceramic pipe), adopted the new wear-resistant plastic production, used in large industrial, currently occupies the market share of around 80%. The combination of high rigidity of ceramic and high elasticity of steel gives the pipe unmatchable features as an abrasion resistant, heat resistant and corrosion resistant material for use in the fields of power generation, metallurgy, mining, and chemical industry etc.. It has many advantages over steel pipes, cast stone pipes, and steel-plastic compound pipes. 1.1 The Manufacturing Process of Ceramic Lined Steel Pipe and
Elbows: Ceramic lined extension pipe drawsDesigned to match standard pipe flanges for easy installation in high-wear areas of the pipeline only. Maximum long-term cost-savings in replacement parts and downtime. Size range:
Self-propagating high-temperature synthesis (SHS)SHS (Self-propagating High-temperature Synthetic process) ceramic lined steel pipe and elbow create a new generation of abrasion and corrosion resistant engineering pipeline.The composite steel pipe is composed of three layers: ceramic, intermediate, and steel layers. The ceramic layer is formed by molten alumina at a temperature above 2500 degree. A well-known example of SHS reaction is the thermite reaction given below: The molten alumina produced from the reaction Fe2O3+2Al=2Fe+Al2O3 spreads on the inside wall of the steel pipe under the influence of a centrifugal force, then solidifies, so the ceramic layer has high density and smooth surface and bonds to the steel pipe. Self-propagating high-temperature synthesis (SHS) is a method for producing inorganic compounds by exothermic reactions, usually involving salts. A variant of this method is known as solid state metathesis (SSM). Since the process occurs at high temperatures, the method is ideally suited for the production of refractory materials with unusual properties, for example: powders, metallic alloys, or ceramics with high purity, corrosion–resistance at high–temperature or super-hardnessity. Usage of The ceramic-lined steel composite pipeThe ceramic lined pipe transport has been widely used in the industries of electric power, metallurgy, coal, petroleum, chemical engineering, building materials, mechanism and so on. The composite pipes have good corrosion-resistant. There is no evidence of corrosion filling the composite pipes with bitter for one year (left), but the common steel pipe under the same condition is corroded seriously (right). Wear-resisting comparative table of The ceramic-lined steel composite pipe:Sand injection test30% Transfer test of sludge with SiO2MaterialVolume diminution Features and Advantages of ceramic-lined steel composite pipe:Alumina is a cost effective and widely used material in the family of engineered ceramics. Alumina ceramics have been developed and optimized for maximum wear resistance and corrosion resistance. A high density, diamond like hardness, fine grain structure and superior mechanical strength are the unique properties that make it the material of choice for a wide range of demanding applications. Ceramic has uses similar to Cast Basalt but it has greater resistance to wear in high velocity applications and impact resistance in extreme dynamic Systems 1). High Abrasion Resistant: |