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Place of Origin : China
MOQ : 10p
Price : 1usd
Payment Terms : L/C, T/T
Supply Ability : 1000000p/month
Delivery Time : 30days
Packaging Details : carton/pallet
Hardness : 2800
Maximum Temperature : 1700℃
Material : Silicon Carbide Ceramics
Bending Strength : 450 MPa
Thermal Conductivity : 160 W/m.K
Thermal Shock Resistance : Good
Density : 3.1g/cm3
Thermal Expansion : 4.3 X 10-6/K
With a bending strength of 450 MPa, our SIC ceramics are incredibly strong and resistant to bending and deformation, ensuring that they can withstand heavy loads and high pressures without breaking or cracking. And with a maximum temperature of 1700℃, they can also withstand extreme heat without losing their shape or integrity.
Our SIC ceramics are also known for their excellent thermal shock resistance, which means that they can withstand sudden changes in temperature without cracking or breaking. This makes them ideal for use in applications where rapid temperature changes are common, such as in furnaces, kilns, and other high-temperature environments.
In addition to their strength and temperature resistance, our SIC ceramics also have a density of 3.1g/cm3, which makes them lightweight and easy to handle. And with a thermal expansion coefficient of 4.3 X 10-6/K, they are able to expand and contract with changes in temperature without cracking or breaking.
One of the most popular applications for our SIC ceramics is as a cooling air pipe for high-temperature gases and liquids. The exceptional thermal conductivity of our SIC ceramics allows them to quickly and efficiently transfer heat away from the material being cooled, making them ideal for use in a variety of industrial cooling applications.
Our SIC ceramics are also commonly used as SIC ceramic bushings, which are designed to provide a high degree of wear resistance and durability in applications where friction and abrasion are a concern. And with their excellent thermal shock resistance, they are able to withstand the rapid changes in temperature that are often associated with high-speed rotation.
Another popular application for our SIC ceramics is as a SISIC heat exchanger, which is designed to transfer heat from one fluid to another without allowing them to mix. With their exceptional strength, temperature resistance, and thermal conductivity, our SIC ceramics are ideal for use in high-temperature heat exchange applications where efficient and reliable heat transfer is essential.
Overall, our Silicon Carbide Ceramics product is an excellent choice for any industrial application that requires high temperature resistance, exceptional strength, and reliable performance. Whether you need a cooling air pipe, a SIC ceramic bushing, or a SISIC heat exchanger, our SIC ceramics are sure to deliver the results you need.
Maximum Temperature | 1700℃ |
Hardness | 2800 |
Modulus of elasticity | 420 Gpa |
Density | 3.1g/cm3 |
Thermal Expansion | 4.3 X 10-6/K |
Bending Strength | 450 MPa |
Material | Silicon Carbide Ceramics |
Color | Black |
Thermal Shock Resistance | Good |
Thermal Conductivity | 160 W/m.K |
This Silicon Carbide Ceramics product has a maximum temperature of 1700℃, hardness of 2800, modulus of elasticity of 420 Gpa, density of 3.1g/cm3, thermal expansion of 4.3 X 10-6/K, bending strength of 450 MPa, and thermal conductivity of 160 W/m.K. It is a black material with good thermal shock resistance. It is commonly used in SISIC heat exchanger and silicon carbide spray nozzle applications.
One of the common applications of SIC ceramic bush is in the manufacturing of pumps, valves, and other mechanical components that require high wear resistance and thermal stability. The SIC ceramic bush can withstand high temperatures and harsh chemical environments, making it ideal for use in chemical processing plants, power generation facilities, and oil refineries.
The SISIC heat exchanger is another popular application for Silicon Carbide Ceramics. The high thermal conductivity and low thermal expansion of this product make it an excellent choice for use in heat exchangers that require high heat transfer efficiency and resistance to thermal shock. The SISIC heat exchanger is commonly used in the chemical, petrochemical, and metallurgical industries.
Another common application of Silicon Carbide Ceramics is in the production of SIC ceramic tubes. These tubes are used in various high-temperature processes such as heat treatment, sintering, and pyrolysis. The SIC ceramic tube has excellent thermal shock resistance and can withstand extreme temperatures, making it ideal for use in kilns and furnaces.
In conclusion, the Silicon Carbide Ceramics product is a versatile material that can be used in various industrial applications. Its excellent thermal, mechanical, and electrical properties make it ideal for use in high-temperature and harsh environments. Some of the common applications of this product include SIC ceramic bush, SISIC heat exchanger, and SIC ceramic tube.
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