◆含量:92% 95%◆编织袋加托盘装◆耐磨、抗冲击、高硬度主图产品:氧化铝研磨球别名:耐磨氧化铝球、高铝球石、刚玉陶瓷球、氧化铝耐磨陶瓷球产品特点:密度高、磨耗低、耐磨、抗冲击、抗震稳定性好、耐酸碱、无污染。采用煅烧工艺保证其高比重、低磨耗,提高研磨效率,降低使用成本。广泛
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the resistance to wear
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the resistance to wear
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate product features: high hardness: alumina resistant
Ceramic rollers introduce ceramic coating materials, and the slipping phenomenon of conveyor belts becomes a thing of the past. These 20 * 20mm sized alumina ceramic blocks (CK) embedded in special rubber, with particles on the surface and excellent wear resistance, can provide excellent grip between the driving rollers and conveyor belts. Even under extreme working conditions such as mud, moisture, and high wear environments. Ceramic encapsulation can easily solve problems and ensure the normal operation of the conveying system. plane
1、 Ceramic rubber composite lining plate product structure: After applying a special rubber adhesive to wear-resistant ceramics, the three materials of ceramics, rubber, and steel plate are vulcanized together at high temperature and high pressure to form a sturdy and impact resistant three in one wear-resistant ceramic composite lining plate. 2、 Ceramic rubber composite lining plate product features: 1. Wear resistant and wear-resistant. The ceramic adopts a unique formula of 95% AL203 with various wear-resistant materials added, and is formed by dry pressing of 100 tons, with high density and toughness
◆ Specification: 0.5-50mm ◆ Content: 92% 95% ◆ Woven bag and tray packaging ◆ Wear resistant, impact resistant, high hardness Main picture Product: Alumina grinding ball Alias: Wear resistant alumina ball, high alumina spherulite, corundum ceramic ball, alumina wear-resistant ceramic ball Product features: high density, low wear, wear resistance, impact resistance, good seismic stability, acid and alkali resistance, no pollution. Adopting calcination process to ensure high density and low wear, improve grinding efficiency, and reduce
Application areas: Wear resistant materials for material conveying equipment or liquid flow on the surface of pipelines in industries such as petroleum, mining, steel mills, and power plants. Their main function is to effectively resist the impact of materials on the pipe wall. Product features: dry pressing and high-temperature firing, with a Rockwell hardness of HR80-90, second only to diamond. Product performance indicators: Performance product 92 series 95 series 97 series 99 series Al2O3
Wear resistant ceramic elbows are excellent alternatives to stainless steel pipes, cast stone pipes, and high chromium cast iron pipes in the field of wear resistance. They are widely used in industries such as power, mining, steel, coal, metallurgy, and cement to transport materials such as tailings, ash, sand, coal powder, and concentrate powder. Ceramic wear-resistant elbows have high wear resistance, corrosion resistance, and heat resistance, with a service life nearly dozens of times longer than ordinary pipelines. They are lightweight and easy to install, allowing enterprises to better reduce costs and save energy consumption. Wear resistant pottery
1、 The characteristics of Kefeng wear-resistant ceramic pipes are: 1. Good wear resistance: The inner lining ceramic layer of the wear-resistant ceramic pipe is wear-resistant ceramic, with a hardness (HRA) of ≥ 88, and its wear resistance is more than 10 times that of high chromium wear-resistant cast iron alloy pipe fittings, with a long service life. 2. Corrosion resistance: Different wear-resistant ceramic materials are selected to have excellent corrosion resistance to different corrosive media, including acid, alkali, salt and other strong corrosive media, as well as the characteristics of halogen salt corrosion. 3. Good high temperature resistance: wear-resistant ceramics themselves
The three in one ceramic lining plate (i.e. ceramic+rubber+steel plate) adopts a hot vulcanization process, in which toughened ceramic sheets are vulcanized in a steel plate groove filled with special rubber, and the steel plate groove is equipped with countersunk bolts. This lining plate is a customized product that can be made of composite materials of various thicknesses and shapes according to wear conditions, forming a sturdy wear-resistant layer. The working temperature of this product is -50 ℃ -100 ℃. The properties of each material in the three in one ceramic lining complement each other, forming excellent wear resistance and durability
Bulletproof mechanism: The reason why ceramics can be bulletproof is because of their high specific stiffness, high specific strength, and chemical inertness in many environments. What makes it better than metal is that metal materials undergo plastic deformation and absorb energy when resisting bullet impact, while ceramics hardly undergo plastic deformation. Bullets can become dull or even broken due to their high strength and hardness characteristics. Using bulletproof ceramics and high-strength materials
Bulletproof mechanism: The reason why ceramics can be bulletproof is because of their high specific stiffness, high specific strength, and chemical inertness in many environments. What makes it better than metal is that metal materials undergo plastic deformation and absorb energy when resisting bullet impact, while ceramics hardly undergo plastic deformation. Bullets can become dull or even broken due to their high strength and hardness characteristics. Using bulletproof ceramics and high-strength materials
Bulletproof mechanism: The reason why ceramics can be bulletproof is because of their high specific stiffness, high specific strength, and chemical inertness in many environments. What makes it better than metal is that metal materials undergo plastic deformation and absorb energy when resisting bullet impact, while ceramics hardly undergo plastic deformation. Bullets can become dull or even broken due to their high strength and hardness characteristics. Using bulletproof ceramics and high-strength materials
Bulletproof mechanism: The reason why ceramics can be bulletproof is because of their high specific stiffness, high specific strength, and chemical inertness in many environments. What makes it better than metal is that metal materials undergo plastic deformation and absorb energy when resisting bullet impact, while ceramics hardly undergo plastic deformation. Bullets can become dull or even broken due to their high strength and hardness characteristics. Using bulletproof ceramics and high-strength materials
Alumina content density Rockwell hardness compressive strength fracture toughness K Ι C flexural strength thermal conductivity coefficient of thermal expansion ≥ 92% ≥ 3.6 g/cm3 ≥ 85 HRA ≥ 850 Mpa ≥ 4.8 MPam1/2 ≥ 290MPa20W/m. K7.2 × 10-6m/m. K Note: The previous specification is a commonly used specification in our company, and due to the large number of specifications, we cannot list them one by one. If you need other specifications, please consult by phone, and our company can provide customized services. Wear resistant ceramic lining is a material mainly composed of aluminum oxide (AL2O3),
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate
Wear resistant ceramic lining plate is made by high-temperature calcination of alumina or zirconia. Aluminum oxide is transformed into dense alpha aluminum oxide at high temperatures, and due to its unique crystal structure, it becomes exceptionally hard, second only to diamond in hardness. The wear resistance is several times or even more than other wear-resistant materials. In addition, due to the smooth surface of wear-resistant ceramic lining, the surface resistance is very low, which is also an important reason for greatly improving its wear resistance. Wear resistant ceramic lining plate
The application scope of wear-resistant ceramic sheets: wear-resistant materials on all mechanical equipment with high wear and tear, such as coal conveying, feeding systems, powder production systems, ash discharge, dust removal systems, etc. in enterprises such as thermal power, steel, smelting, coal, mining, chemical, cement, port and dock, commercial concrete machinery, etc. Performance characteristics of wear-resistant ceramic chips: 1. High hardness: The hardness is the same as that of corundum, reaching Mohs hardness level nine, second only to diamond, far exceeding the wear resistance of wear-resistant steel and stainless steel. 2. Excellent wear resistance: Wear resistant
