Our team is highly trained and experienced in servicing and producing all types of steel supplies. Need help or have a question?
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Tel.: +8621-3378-0199
Our team is highly trained and experienced in servicing and producing all types of steel supplies. Need help or have a question?
sales@abrasionresistantpipe.com
Tel.: +8621-3378-0199
The rare earth alloy wear-resistant pulverized coal mixer is made of rare earth wear-resistant alloy steel.
Rare earth alloy wear-resistant pulverized coal mixer is one of the equipment arranged on the pulverized coal wear-resistant pipeline of coal-fired boilers, and is used in the coal conveying system of intermediate storage coal-fired boilers. It is an important equipment in the blast furnace coal injection system to transport the pulverized coal in the injection tank to the blast furnace, and is used for uniform mixing of the pulverized coal and the compressed air.
The rare earth alloy wear-resistant pulverized coal mixer is made of rare earth wear-resistant alloy steel contains various alloy elements such as Cr, Ni, Mo, W, V, Cu, etc.
Rare earth alloy wear-resistant pulverized coal mixer is one of the equipment arranged on the pulverized coal wear-resistant pipeline of coal-fired boilers, and is used in the coal conveying system of intermediate storage coal-fired boilers. It is an important equipment in the blast furnace coal injection system to transport the pulverized coal in the injection tank to the blast furnace, and is used for uniform mixing of the pulverized coal and the compressed air.
The structure of the rare earth alloy wear-resistant pulverized coal mixer determines whether the pulverized coal can be mixed evenly with the compressed air, the concentration of the pulverized coal conveyed, and the use efficiency of the mixed pulverized coal. The uneven mixing of pulverized coal will affect the operation of the boiler, and even in severe cases, coal breakage will occur, resulting in unstable boiler operating parameters, drop in air pressure and temperature, and forced to reduce load in a short time.
Rare earth alloy wear – resistant tube is badly worn parts, such as pipe, elbow, reducer, and water intake place such as the model of integral casting, then mechanical processing method, especially the outer wear parts, especially in the elbow to the outer diameter change circle method is adopted to carry on the design, local thickening severe wear parts, but also according to various requirements, produce all kinds of irregular switch pipe fittings to meet the design requirements, straight tube is using centrifugal casting.Rare-earth wear-resistant alloy containing Cr, Ni, V, Mo, W, a variety of alloy element such as Cu, it not only has high hardness, but also has certain mechanical properties, at room temperature with good welding performance, and can be cut and the possibility of opening, also has certain corrosion resistance.
There are three main types of pulverized coal mixers:
(1) Double pallet pulverized coal mixer is DD27 series double pallet pulverized coal mixer
(2) Full negative pressure wear-resistant pulverized coal mixer;
(3) Ejector pulverized coal mixer.
The structural design of the double-plate pulverized coal mixer is not reasonable, resulting in the phenomenon of supporting powder, which affects the uniformity of coal feeding. The full negative pressure wear-resistant pulverized coal mixer is the main product of the equipment on the boiler pulverized coal pipeline. The principle of the full negative pressure wear-resistant pulverized coal mixer is to change the original double-layer support plate to a single support plate, and add an arc-shaped wear-resistant plate to the rear wall of the connection between the powder drop pipe and the mixer, so that the one-time flow through The wind has a drainage effect on the powder pipe, which completely eliminates the phenomenon of powder support.
No. | Grade | C | Mn | Si | Cr | Ni | Mo | W | V | Nb | Cu | Re | N | S | P |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | ZGCr20Mo3Ni3Re | 2.50/3 | 1.50/2 | 0.80/1.2 | 18.0/23 | 2.50/3 | √ | 1.20/1.5 | √ | ≤0.06 | ≤0.06 | ||||
2 | ZGCr28Mo3Ni3Re | 2.80/3.3 | 1.50/2 | 1.80/1.2 | 25.0/300 | 2.80/3.3 | √ | 1.80/2.3 | √ | ≤0.06 | ≤0.06 | ||||
3 | ZGCr15Mo3Re | 2.60/3.2 | 1.20/1.6 | 1.0/1.5 | 12.0/16 | √ | 2.50/3 | 1080/1.2 | √ | ≤0.04 | ≤0.05 | ||||
4 | ZGCr25Ni4Si2Re | 0.35/0.45 | 0.80/1.2 | 1.20/1.6 | 23.0/26 | 3.50/4.5 | √ | √ | ≤0.035 | ≤0.045 | |||||
5 | ZGCr15Mo2Re | 1.80/2.2 | 0.80/1.2 | 1.0/1.5 | 14.0/18 | √ | 2.0/2.5 | 0.80/1.2 | √ | ≤0.04 | ≤0.05 | ||||
6 | ZG40CrMnMoNiSiRe | 0.40/0.5 | 1.20/1.6 | 1.50/2 | 1.10/1.6 | 1.0/1.5 | √ | √ | √ | √ | ≤0.035 | ≤0.04 | |||
7 | ZG40Cr5Ni3MoVWRe | 0.35/0.45 | 0.80/1.2 | 1.20/1.6 | 23.0/26 | 2.50/3.5 | √ | √ | √ | √ | ≤0.045 | ≤0.055 | |||
8 | ZG50Cr18Ni4MoVWCuRe | 0.45/0.6 | 1.0/1.4 | 1.50/2 | 16.0/20 | 3.50/5 | √ | √ | √ | 0.40/0.6 | √ | ≤0.35 | ≤0.35 | ||
9 | ZGCr25Ni2Mo2WVCuRe | 0.40/0.6 | 0.80/1.2 | 1.20/1.6 | 23.0/v | 1.50/2.5 | √ | √ | √ | 0.20/0.4 | √ | ≤0.035 | ≤0.035 | ||
10 | ZG40Cr25Ni6MoWVCuRe | 0.35/0.45 | 1.2/1.6 | 1.50/2 | 23.0/26 | 5.0/7 | √ | √ | √ | √ | √ | √ | ≤0.35 | ≤0.045 | |
11 | ZG90CrMn13MoSiVRe | 0.40/1.3 | 11.0/14 | 0.30/0.8 | √ | √ | ≤0.04 | ≤0.04 | |||||||
12 | ZGCrMu10MoSiVRe | 1.0/1.2 | 8.0/11 | 0.30/0.8 | √ | √ | ≤0.04 | ≤0.04 | |||||||
13 | ZGW5Cr4Re | 2.50/3.5 | 1.5/1 | 0.50/1 | 35.0/4.5 | √ | √ | ≤0.10 | ≤0.15 | ||||||
14 | ZGCr25MoRe | 2.30/3 | 0.50/0.9 | 0.30/0.6 | 23.0/28 | √ | √ | ≤0.06 | ≤0.10 | ||||||
15 | ZGCr15MoRe | 3.0/3.5 | ≤1.0 | 0.15/1 | 15.0/18.6 | 2.80/3.3 | √ | ≤0.06 | ≤0.10 | ||||||
16 | ZG30CrMnSi | 0.27/0.33 | 1.30/1.5 | 1.20/1.5 | √ | √ | √ | ≤0.03 | ≤0.04 | ||||||
17 | ZG40CrNiRe | 0.28/0.43 | 1.10/1.4 | 0.80/1 | √ | √ | √ | ≤0.06 | ≤0.10 | ||||||
18 | ZG33Cr13Ni4Re | 0.30/0.35 | ≤0.80 | ≤0.60 | 12.0/14 | 4.0/4.5 | √ | √ | ≤0.06 | ≤0.10 | |||||
19 | ZG40CrSiN | 0.35/0.45 | 1.0/1.5 | 1.50/2 | √ | √ | ≤0.04 | ≤0.08 |
temperature ℃ | Abrasive wearmg/g | hardness HRC | Tensile strengthN/mm² | Impact toughness J/cm² |
---|---|---|---|---|
≤300 | 0.021 | ≥63 | 890 | 5 |
≤350 | 0.033 | ≥56 | 910 | 6 |
≤350 | 0.042 | ≥45 | 910 | 6 |
≤400 | 0.069 | ≥42 | 960 | 6 |
≤400 | 0.039 | ≥48 | 920 | 7 |
≤400 | 0.064 | ≥40 | 950 | 7 |
≤400 | 0.069 | ≥36 | 910 | 8 |
≤400 | 0.036 | ≥42 | 1040 | 8.5-10 |
Rare earth alloy wear-resistant pipe is used for pneumatic, pumping slurry and other material conveying pipes. It has the characteristics of fast flow rate and large flow rate.
Compared with high manganese steel materials under the same conditions, the unit wear of rare earth alloy is about 1/3 that of high manganese steel, and its service life is 2-3 times that of high manganese steel.
Because R alpha composition and structure characteristics of carbide , and the content of solid solution to Cr matrix has strong heat resistance, corrosion resistance, and add the Mo in the high temperature or corrosive environment shows the performance of corrosion resistance, abrasion resistance, add a certain amount of rare earths, giving the inner structure of the alloy is more compact, surface to form a layer of protective film, prevent seepage of carbon. Increased wear resistance, corrosion resistance; Containing a certain amount of boron makes the alloy hardness , which can not was achieved by carburizing. At the same time, containing a certain amount of Mn increases the fatigue resistance of the alloy , so that the wear resistance of the alloy is better than that of high chromium alloy and rare earth alloy.
Alloy wear-resistant casting pipe can bear the pressure of 6 ㎏ / cm2, can be applied to gas conveying high pressure pipeline, for external use high-quality steel pipe or is made of high qualified steel plate, hot pressing push system, through the good welding, makes the elbow in more than 10 kg/cm2 pressure is no problem, won’t appear because of local air leakage, diversion phenomenon of material.
Such as bimetallic materials can not be manufactured in the power plant coal grinding, pulverizing, ash removal, slag discharge system of some equipment accessories. Such as dredge scraper, pulverized coal mixer, spiral tube, etc., can be made of this material, which brings great convenience to power plant operation, maintenance and management.
On the basis of centrifugal casting and resin sand molding, the company introduced a new EPC lost foam vacuum suction casting process to make molds according to product structure, application, usage method and quantity, with high dimensional accuracy, uniform material organization and stable performance, especially for wear-resistant Spiral pipes, pulverized coal mixers, fork pipes, import and export hoppers, round and round joints, cone buckets and other special-shaped parts are cast as a whole, and the wall thickness is uniform.
The disadvantage of rare earth wear-resistant alloy steel is its low impact resistance, so it should be carefully handled during transportation and installation.
Grade: ZG40CrNiMoMnSiRe
Hardness: HRC≥40
Impact toughness: αK≥14J/cm2
Tensile strength: αB≥700MPa
Service life: 4-5 times that of ordinary carbon steel and 2-3 times that of cast stone elbows.
Grade | C | Cr | Mn | Mo | Ni | Si | S | P | Re |
---|---|---|---|---|---|---|---|---|---|
ZG40CrMnMONiRe (JM6a) | 0.35-0.42 | 1-1.14 | 1-1.14 | 0.3-0.6 | 0.5-0.8 | 0.8-1.2 | ≤0.04 | ≤0.04 | ≤0.02 |
Grade | Tensile strength σb MPa | Impact ak j/cm2 | Hardness HRC |
---|---|---|---|
ZG40CrMnMoNiRe(JM6a) | ≥860 | 30 | ≥40 |
ZG40Cr8MnMoNiSiRe is the latest rare earth alloy wear-resistant material developed by our factory on the basis of the original rare earth alloy. By increasing the content of Cr in the rare earth alloy, the wear resistance of the rare earth alloy is greatly increased. ZG40Cr8MnMoNiSiRe now is instead of ZG40CrMnMoNiSiRe to produce rare earth metal wear resistant pipe and fittings.
Rare earth alloy wear-resistant pipe is used for conveying wear-resistant pipes such as power plant powder and ash, mine slag and non-ferrous metal coal extraction and slag discharge, shock resistance and wear resistance.
The application fields of rare earth alloy wear-resistant pipes are as follows:
Coal-fired power plant
Coal conveying, ash removal, slag discharge pipes, powder feeding, powder returning pipes, desulfurization pipes, etc.;
Mine:
In the coal industry, coal-water slurry, coal washing slime, mine filling material, mine pulverized heavy medium coal washing pipeline, chute, etc.;
Metal Mine:
Conveying wear-resistant pipes for concentrates and tailings;
Metallurgy:
Blast furnace coal injection and slag conveying pipes in iron and steel plants; CAO, zinc and sand conveying pipes, iron alloy conveying in steel making, out-of-furnace refining and other preferred wear-resistant pipes;
Cement plant:
Raw slurry transportation, pulverized coal transportation, hoist unloading, finished cement pneumatic transportation loading and unloading, concrete transportation pipeline of rotary kiln wet production line.
Chemical plant:
Coal powder conveying pipeline, silicon powder and other raw material conveying wear-resistant elbows.
The composition design of medium carbon alloy rare earth wear-resistant steel adopts medium carbon multi-alloy system to ensure that the material maintains comprehensive performance indicators. Combining the characteristics of our country’s resources, this material adopts a small amount of multi-element alloy body, and adds FeV, FeNb, Cu and other multi-alloy elements on the basis of the original alloy materials FeCr, FeMn, Ni, Re, FeSi, etc., to ensure the performance of the product.
The medium carbon alloy rare earth wear-resistant steel has high wear resistance, and the rare earth wear-resistant alloy steel has strong wear resistance. After adding FeV, FeNb, and Cu, the metallographic structure of the material has changed. The metallographic structure is: Lath Martensite + Bainite. The grains are finer, the strength is higher, the plasticity is stronger, and the metal matrix is further passivated, so that the wear resistance of the original material has been improved.
Medium carbon alloy rare earth wear-resistant steel has high temperature resistance, strong corrosion resistance and improved wear resistance. The content of Ni and Cr elements in the alloy directly determines the temperature resistance of the material. The content of Cr element and Cu element determines the corrosion resistance of the material. The reasonable combination of these elements makes the new rare earth wear-resistant alloy material have several properties at the same time, such as high wear resistance and high wear resistance. It has excellent corrosion resistance, so it can adapt to the use of various harsh working conditions.
The medium carbon alloy rare earth wear-resistant steel has advanced technology and stable performance. On the basis of centrifugal casting and resin sand molding, our factory has introduced a new EPC lost foam vacuum suction casting process to make molds according to product structure, application, use method, and quantity. High precision, uniform material structure and stable performance, especially for special-shaped parts such as wear-resistant spiral pipes, pulverized coal mixers, fork pipes, import and export hoppers, round and round joints, cone buckets, etc., the wall thickness is uniform.
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Q: How long is your delivery time?
A: The delivery time of customized products is generally 25 35 days, and non customized products are generally shipped within 24 hours after payment.
Q: Do you provide samples? Is it free?
A: If the value of the sample is low, we will provide it for free, but the freight needs to be paid by the customer. But for some high value samples, we need to charge a fee.
Q: What are your payment terms?
A: T/T 30% as the deposit,The balance payment is paid in full before shipment
Q: What is the packaging and transportation form?
A: Non steaming wooden box and iron frame packaging. Special packaging is available according to customer needs. The transportation is mainly by sea.
Q: What is your minimum order quantity?
A: There is no minimum order quantity requirement. Customized products are tailor made according to the drawings provided by the customer.