Carbide Pellets,Cemented Carbide Pellets,Tungsten Carbide Pellets,Tungsten Carbide Alloy Pellet Luoyang Golden Egret Geotools Co., Ltd , https://www.xtcwelding.com
Tungsten carbide pellets are small, cylindrical or spherical shapes made from tungsten carbide, a hard and dense material. These pellets are typically used in various industrial applications, such as drilling, grinding, cutting, and wear-resistant components.
Tungsten carbide is a compound of tungsten and carbon, known for its high hardness, strength, and resistance to wear and corrosion. It is often used as a cutting tool material, as well as in the production of mining and drilling equipment.
The pellets are usually produced through a process called powder metallurgy, where Tungsten Carbide Powder is mixed with a binder material and then compacted under high pressure. The compacted pellets are then sintered at high temperatures to form a solid and durable product.
Tungsten carbide pellets are used in various industries, including mining, construction, oil and gas, and manufacturing. They are commonly used as inserts in drilling bits, cutting tools, and wear-resistant parts, providing high performance and extended tool life.
Overall, tungsten carbide pellets are essential components in many industrial applications, offering superior hardness, strength, and wear resistance.
Deep hole welding process analysis of sealing surface of valve body of power station
Power station valves operating conditions are usually 540 ℃ high temperature steam, so the valve body material selection 25 or 12crmov, the valve sealing material selection of cobalt-based alloy d802 (sti6) electrode. d802 corresponds to the model edcocr-a in gb984 standard, which is equivalent to ercocr-a in aws. d802 material can be opened and closed in a row under high temperature and pressure work, with excellent wear resistance, impact resistance, oxidation resistance, corrosion resistance and cavitation resistance. The weld metal, weldable by the ercocr-a wire and filler wire in the aws standard, is characterized by hypoeutectic microstructure consisting of approximately 13% of a matrix of chromium carbide eutectic in a cobalt chromium tungsten solid solution matrix. The result is a perfect combination of the material's resistance to low stress wear and the toughness necessary to withstand some sort of procedural impact. Cobalt alloys have a good resistance to metal-to-metal wear, especially in high load conditions, scratch resistance. The high alloying element content of the matrix provides excellent resistance to corrosion and oxidation. Cobalt-based alloy does not change allotrope. When the deposited metal of Co-based alloy is in the hot state (below 650 ℃), the hardness decrease is not obvious. Only when the temperature is higher than 650 ℃, the hardness decreases obviously, When the temperature returns below the hot state, its hardness returns to near the original hardness. That is, when the base metal after heat treatment, the performance of the sealing surface will not be lost. Power station valve is in the middle part of the valve body welded by welding method of cobalt base alloy processed into the valve seat sealing surface, the sealing surface at the valve body in the middle hole deep position, easy to produce slag and cracks in the surfacing defect. According to the need to use the method of processing specimens for deep-hole surfacing d802 process test. In the process of testing to identify the causes of defects. ①welding surface contamination. ② welding consumables. ③ base metal and filler metal contains more impurities and oil. ④ valve body parts rigid welding (especially dn32 ~ 50mm). ⑤ preheating and welding heat treatment process specifications improper selection. ⑥ welding process parameters improper selection. ⑦ improper selection of welding materials. Power station valve body in the cobalt-based alloy surfacing cracks mainly due to the valve body rigidity. During the welding process, the arc forms a weld pool, which continuously melts and heats the welding part, and the temperature of the weld drops rapidly after the welding, and the molten metal solidifies to form a weld. If the preheating temperature is low, the temperature of the bonding layer must drop rapidly. In the case of rapid cooling of the weld layer, the shrinkage rate of the weld layer is faster than the shrinkage of the valve body. Under such stress, the weld layer and the parent material quickly form an internal tensile stress and the weld layer is cracked. In the processing of welding parts should be strictly prohibited sharp corners. Preheating temperature is too low, the heat in the welding process quickly distributed. The interlayer temperature is too low, the cooling rate of the coating is too fast for the surfacing material is very unfavorable. Welding consumables cobalt-based alloy itself has a very high red hardness, working at 500 ~ 700 ℃, the hardness can maintain 300 ~ 500hb, but its low toughness, crack resistance is poor, easy to form a crystal crack or cold crack, so before welding Must be preheated. Preheating temperature depends on the size of the workpiece, the general preheating range to take 350-500 ℃. Welding electrode coating must be kept intact, to avoid moisture absorption. Baking 1h at 150 ℃ before welding into the insulation tube. Deep groove welding groove arc r angle as far as possible in the process allow the use of larger values, usually r ≥ 3mm. dn10 ~ 25mm small diameter valve body can be used at the bottom of the deep hole full of welding, must ensure that the interlayer temperature ≥ 250 * (2, in the middle of the arc, arc welding should slowly lift the workpiece welding forward into the furnace (250 ℃ ) Heated to 350 ten 20 ℃, insulation 1.5h after welding, welding slag after each layer is removed. At the same time control the interlayer temperature ≥ 250c, after the completion of welding to clear the welding slag. Furnace (450 ℃) insulation, until the batch or the furnace temperature rise to 710 ± 20 ℃ after tempering, insulation 2h after cooling with the furnace, when the furnace temperature dn ≥ 32mm valve body should be processed into a u-shaped groove bevel, So as to solve the problem of uneven shrinkage caused by too rigid rigidity when welding a cobalt-based alloy, and the workpiece is cleaned and cleaned before the welding operation, the workpiece is put into a furnace (furnace temperature is 250 ° C.) and heated to 450-500 ° C., Insulation 2h, baked welding first cobalt-based alloy electrode surfacing sealing surface, after each layer of welding slag to be removed after welding, at the same time to control the interlayer temperature ≥ 250 ℃, after the completion of welding to clear the welding slag. Body stainless steel electrode (high cr, ni content of stainless steel electrode) will be welded u-groove full Immediately after into the furnace (450 deg.] C) heat, until the present the present batch furnace or welding is completed warmed to 720 ± 20 ℃ tempering. Temperature rise rate of 150 ℃ / h, 2h after cooling with the furnace heat.