Archive for year: 2021

1. The principle of self-propagating ceramic composite pipe:

The ceramic composite pipe is manufactured by self-propagating high temperature synthesis + centrifugal casting, that is, the seamless steel pipe is placed in the tube mold of the centrifuge, and the thermite (a mixture of iron oxide powder and aluminum powder) is added to the steel pipe, and the centrifuge tube mold After the rotation reaches a certain speed, the thermite is ignited by electricity, the combustion wave spreads rapidly, and the explosion takes shape. The following violent chemical reactions occur during spreading:
• 2A1+Fe2O3=Al2O3+2Fe+836KJ
• 3Fe3O4+8Al=4AL2O3+9Fe+3256KJ

After the reaction, the products a-Al2O3, ß-Al2O3 and iron, and emit a lot of heat at the same time. Due to the rapid reaction, only a few seconds, the molten reactant is quickly separated according to the specific gravity under the action of centrifugal force. The specific gravity of iron (7.85g/cm3) is twice that of Al2O3 (3.95 g/cm3), and the heavier iron Throwing to the inner wall of the steel pipe by centrifugal force, the lighter Al2O3 is distributed in the inner layer of iron; due to the rapid heat absorption and heat transfer of the steel pipe, Al2O3 and Fe quickly reach the freezing point and solidify in layers; the final ceramic steel pipe is formed separately from the inside to the outside It is a corundum porcelain layer, an iron-based transition layer, and an external steel pipe layer. High-temperature molten iron and Al2O3 liquid contact with the inner wall of the steel pipe to make the inner wall of the steel pipe in a semi-soluble state, so that the iron layer and the steel pipe form a metallurgical bond, and the iron layer and the corundum ceramic layer also form a firm bond.

2. Features of self-propagating ceramic composite pipe

• The composite pipe made by the high-temperature centrifugal synthesis method is a dense corundum ceramic that is fired at a high temperature of 2200 degrees. The dense corundum ceramic and steel pipe are firmly combined by the transition layer.

• Process: Ceramic powder + iron oxide powder + magnesium oxide powder are mixed in proportion (the main component is iron oxide, black), seal both ends of the pipe, add the powder, rotate the pipe, electronic ignition, and sinter on the inner wall of the pipe by centrifugal method. The effect of pipes below ø100 is better. The pipe is generally black.

• Features: high strength, good toughness, impact resistance, good weldability, which solves the contradiction between weldability and wear resistance.

• Wear resistance and high temperature resistance

3. Spontaneous combustion application field

 

Self-spreading ceramic composite pipes can be used in high temperature areas, with simple production, convenient construction, and low cost. The diameter of the pipe is not more than 600mm, and the wear resistance is lower than that of ceramic patch pipes.

Disadvantages: Due to the short reaction time, the low-temperature phase alumina and molten iron are not completely separated, resulting in the ceramic layer is not dense, the particles are loose, the micro-cracks are many, the quality is brittle, it is easy to partially fall off and fail, and it cannot be compensated after fall off. It can only be made into a straight tube. If it is made into an elbow, the straight pipe must be divided into several sections for welding. The formed elbow is not streamlined, which hinders material transportation and reduces the output force of the equipment

Decho is a professional supplier on self-propagating ceramic composite pipe. If you need any , pls feel free to contact us by email [email protected]

Ceramic composite steel pipe: straight pipe, elbow pipe, reducer pipe, tee, pipeline automatic compensator and special-shaped pipe of various specifications between φ50-φ1400

What is a ceramic-lined steel pipe?

Ceramic lined steel pipe is a kind of composite pipe that combines ceramic and metal organic. Ceramic steel pipe combines the advantages of high alumina hardness, good chemical inertness and steel, and has excellent wear resistance, corrosion resistance, heat resistance and heat resistance Impact and resistance to mechanical impact, used for power plant pulverized coal, slag, mine powder, tailings, backfill, coal in coal mines, beneficiation plants, coke particles in coking plants, and sintering plant materials. The service life is 15 longer than ordinary steel pipes. It can also be used for the transportation of molten aluminum and corrosive media. The thermite-centrifugal method prepares the ceramic-lined steel pipe using the high temperature generated by the reaction itself to melt the reaction products and separate them under the action of centrifugal force to form a steel pipe lined with alumina ceramics, with low energy consumption and fewer processes.

Performance of ceramic lined steel pipe:

1. Wear resistance: The Al2O3 content in the inner ceramic layer of the ceramic composite steel pipe is greater than 90%, the hardness is HV1000-1600, and the density is 3.8-3.97g/cm3, so it has extremely high wear resistance, and its wear resistance is higher than that after quenching The medium carbon steel is ten times higher than the tungsten carbide.
2. Corrosion resistance Ceramics are neutral materials with stable chemical properties, excellent corrosion resistance and acid resistance, resistance to various inorganic acids, organic acids, organic solvents, etc., and its corrosion resistance is more than ten times that of stainless steel.
3. Heat resistance The ceramic layer is dense corundum with a linear expansion coefficient of 6-8×10-6/℃. Excellent heat resistance, can withstand temperatures above 2000℃, and can work for a long time in the range of -50℃～900℃.
4. Mechanical properties: It has excellent mechanical properties. Its crush strength is 300-600MPa, compressive shear strength is 20-30MPa, and the mechanical impact test has no obvious cracks under 50t energy impact for 15 times.
5. Easy to weld: The ceramic-lined composite steel pipe can be connected by welding the outer steel pipe.
6. Convenient transportation and installation: Compared with steel pipes, wear-resistant alloy cast pipes, cast iron pipes and cast stone pipes, ceramic-lined composite steel pipes are relatively light in weight and easy to transport and install. Ceramic lining composite steel

Ceramic lined steel pipe connection method

The pipe can be connected by welding, flange, flexible quick joint, etc., which is very convenient for installation.

Application of ceramic lined steel pipe

Ceramic-lined steel pipes can be used for a variety of pipes in thermal power, steel, non-ferrous metals, mining, coal, chemical, petrochemical and other industries due to their excellent performance:
1. Pipelines requiring high wear resistance: coal and ash (slag) transportation pipelines in thermal power plants, tailings and concentrate transportation pipelines in concentrators, port slurry and sediment transportation pipelines, pulverized coal slurry transportation pipelines, etc.
2. Various pipelines requiring high corrosion resistance.
3. Molten aluminum liquid transportation pipeline.
4. Various channels requiring high wear resistance, high corrosion resistance and high temperature resistance. Economic benefits: Compared with wear-resistant alloy cast iron pipes and cast stone pipes, ceramic-lined steel pipes are used as wear-resistant pipes. Due to the light weight per unit length, the support and hanger costs, handling costs and installation costs are reduced, which greatly reduces the project cost .

Decho is a professional supplier on Ceramic patch wear-resistant pipe and fittings. If you need any for your project , pls contact us by email [email protected]

Tunnel escape pipe

 

The escape pipeline used in the tunnel is made of ultra-high molecular weight polyethylene. The installation of escape pipelines in the tunnel is generally based on prevention and facilitates escape. The tunnel escape pipeline plays a role of secondary defense. The polymer escape pipeline is light in weight, easy to disassemble and transport; the pipeline has good toughness and high impact resistance. It deforms instantly when impacted by a strong external force, absorbs a large amount of impact energy, and then quickly restores its original shape, providing emergency rescue for highway tunnel construction escape Safe and reliable guarantee.

The tunnel escape pipe is a pipe made of ultra-high molecular weight polyethylene. It is simple, pure and not exaggerated because of its appearance, and its nature is solid, durable and not perishable. The quality of the pipe is much higher than that of commonly used pipes. It has extremely high impact resistance and cannot be broken by external impact. It will not be deformed after being hit by a large stone and can be restored to its original appearance.

Installation of escape pipe

 

The main purpose of the installation of ultra-high polymer escape pipes is to prevent and avoid risks. The ultra-high polymer escape pipes are called “amazing engineering plastics”, which have very strong impact resistance and wear resistance, even if they are strongly affected by the earth’s crust. Changes, such as earthquakes, will not break the pipeline, but will only slightly deform. It is almost impossible to measure the impact resistance limit of UHMWPE pipes. Therefore, the use of escape pipes as escape pipes is very cost-effective.

 

Decho is a professional supplier on tunnel escape pipes. if you need any for your project , pls feel free to contact us by email [email protected]

Introduction of Bimetal Wear-resistant Pipes

The bimetallic composite pipe is a new type of wear-resistant pipe developed by our company. The outer layer of the straight pipe is made of ordinary steel pipe, and the high chromium cast iron is formed through the casting process. The inner lining is compounded. The outer wall of the elbow adopts a hot simmering elbow, and the inner layer is cast with high chromium cast iron. Compared with the traditionally used wear-resistant alloy cast iron, wear-resistant alloy cast steel, steel-ceramic composite pipe and cast stone pipe, the pipeline has many advantages.

Production Process

 

In the production process of the bimetal wear-resistant pipeline, the straight pipe adopts casting technology. This technology is that the liquid wear-resistant metal material is fused to the surface of another metal to form a composite steel body after hot melting, achieving the purpose of true metallurgical bonding. The bonding layer The shear strength is higher than that of the body metal, which fully realizes the mechanical complementarity of the base layer and the wear-resistant layer; the elbow, tee, reducer and other pipe fittings adopt the lost foam vacuum suction casting compound process, which is advanced in technology and effectively solves the problem The problem of compounding, the elbow and various other special-shaped pipes can be integrated as a whole, without changing the flow trajectory of the material in the elbow, and greatly reducing the resistance of material transportation.

In the selection of material, the outer wall of the steel is made of carbon steel, which ensures that the wear-resistant tube has high mechanical strength and impact resistance; the wear-resistant layer of the lining is made of wear-resistant alloy steel series, which is mainly added with Cr-Ni-Mo -Cu-RE and other alloys, after quenching and tempering heat treatment process, make the alloy steel not only have strong wear resistance and corrosion resistance, but also have higher mechanical strength and impact resistance.

Features of bimetal wear-resistant pipe products

1. Good wear resistance, giving full play to the excellent wear resistance characteristics of high chromium casting (KMTBCr20Mo3CuRe). The wear layer is made of high complex alloy material. The macroscopic hardness can reach HRC55 or more. The structure contains a large amount of M7C3 type hard. Carbide, its micro-hardness is HV1500-1800, and its anti-abrasive and wear-resistance performance is more remarkable. .

2. High pressure bearing, suitable for any pressure level. The inner lining is tightly combined with the outer steel pipe. The special process is adopted to form a weld between the composite layers to ensure operational reliability.

3. Good resistance to mechanical shock, thermal shock, wear and corrosion, and high temperature resistance: Since the matrix is ​​mainly composed of austenite and carbide, there is a large amount of Gr element in the solid solution, so it can be significant in corrosion or high temperature environments The bimetal wear-resistant elbow has good wear resistance, corrosion resistance and high temperature resistance.

4. Convenient installation and connection, flanges can be used, arbitrary cutting, welding, and good overall performance: The bimetal composite wear-resistant pipe adopts ordinary steel pipe outside and high-end wear-resistant alloy inside, which forms a better metallurgical combination at the same time , It also gives full play to the wear resistance and corrosion resistance of high complex alloys and the good mechanical strength and impact resistance of ordinary steel pipes. It solves the contradiction between weldability and wear resistance that are difficult to reconcile with a single material. Able to achieve the best fit.

Application scope of bimetal wear-resistant elbows and pipes:

1. Power industry: raw coal system silos, hoppers, hoppers, powder feeding pipelines,
2. Coal industry: heavy ore coal preparation pipelines in coal preparation plants, wet coal conveying systems, sediment backfilling in mining
3. Mining industry: mine filling, concentrate transportation, tailings transportation pipeline
4. Iron and steel industry: coke particle transportation pipeline, coal mill pipeline, separator, elbow, cone, separation baffle
5. Cement industry: coal powder transportation. Mineral powder transportation
6. Machinery industry: lining of equipment for pulverizing, dust removal and ash discharge systems of power plants, and lining of dust removal equipment in steel plants.

Decho is a professional supplier on bimetallic pipes. If you need any for your project , pls contact us by email [email protected]

Wear-resistant pipes mainly include wear-resistant elbows, straight pipes, tees, small and small ends, square and round joints, reducing pipes and other structural parts, which are mainly used for pneumatic, pumping slurry and other material transportation pipelines. Because the conveying medium has the characteristics of high hardness, fast flow rate, and large flow rate, it can effectively reduce the long-term continuous impact, wear and corrosion of the conveying medium on the pipe wall, which causes the pipeline to fatigue and gradually wear through.

1. Definition of wear-resistant pipe

According to different wear conditions, there are also different material choices for wear-resistant pipeline lining. Wear-resistant ceramic pipes lined (lined with aluminum oxide, silicon carbide, zirconia, silicon nitride, Sialon, aluminum nitride, boron nitride, etc.); wear-resistant alloy pipes; tortoise shell mesh wear-resistant pipe fittings; steel rubber resistant Grinding pipe; steel-plastic wear-resistant pipe; wear-resistant cast stone pipe; wear-resistant self-propagating composite pipe; rare earth alloy wear-resistant pipe, etc.

2. The main application of wear-resistant pipes

Wear-resistant elbows are widely used in the following industries in addition to ash removal, slag discharge pipes, powder feeding and powder returning pipes, and desulfurization pipes in coal-fired power plants:

Mines: coal water slurry, coal washing slime, mine filler, pulverized coal in the coal industry;
Metal mines: wear-resistant elbows for conveying concentrates and tailings;
Metallurgy: blast furnace coal injection and slag conveying pipelines in iron and steel plants; CAO, zinc dust conveying pipelines, steel conveying ferroalloys, furnace refining and other preferred wear-resistant elbows;
Cement plant: raw slurry conveying, coal powder conveying, elevator unloading, finished cement pneumatic conveying and unloading, concrete conveying wear-resistant elbow of rotary kiln wet production line.
Chemical plant: pulverized coal transportation pipeline, silicon powder and other raw materials transportation wear-resistant elbow.

3. Detailed use of wear-resistant pipes

It has spread to the industries of electric power, metallurgy, coal, petroleum, chemical industry, building materials, machinery, etc., and is developing rapidly. When the abrasive material is transported in the wear-resistant pipe (such as ash, coal powder, slag powder, tailings, cement, etc.), there is a problem of rapid wear of the wear-resistant pipe, especially the elbow wears faster . When the gas, liquid or solid with strong corrosion is transported in the wear-resistant pipeline, there is a problem that the wear-resistant pipeline is corroded and quickly damaged. When materials with higher temperature are transported in wear-resistant pipes, there is a problem that the use of heat-resistant steel pipes is very expensive. After the wear-resistant pipes are on the market, these problems are solved. Wear-resistant pipelines are widely used for the transportation of severely worn mine fillers, ore concentrates and tailings. Wear-resistant pipelines such as powder delivery, slag removal and ash transportation in coal-fired thermal power plants are also very suitable. Wear-resistant pipelines are ideal wear-resistant pipelines for transporting strongly corrosive acids, alkalis, salts, and abrasive solids and liquids. Wear-resistant pipelines are very safe and reliable when used in high-temperature corrosion, high-temperature wear or high-temperature ablation.

Decho is a professional supplier of ceramic wear resistant pipes, if you need any material for your project , pls feel free to contact us by email [email protected]