Product Details
Payment & Shipping Terms
Minimum Order Quantity: 10p
Price: 1usd
Packaging Details: carton/pallet
Delivery Time: 30days
Payment Terms: L/C, T/T
Supply Ability: 100000p/month
Color: |
White |
Tolerance: |
As Design Drawing Or OEM |
Ring Beval Machining: |
Single Beval / Double Beval |
Material: |
Zirconia Ceramics |
Young'S Modulus: |
210 GPa |
Dielectric Strength: |
9.5 KV/mm |
Shaping Method: |
Dry Pressed,hot Pressed |
Dielectric Constant: |
9.5 |
Color: |
White |
Tolerance: |
As Design Drawing Or OEM |
Ring Beval Machining: |
Single Beval / Double Beval |
Material: |
Zirconia Ceramics |
Young'S Modulus: |
210 GPa |
Dielectric Strength: |
9.5 KV/mm |
Shaping Method: |
Dry Pressed,hot Pressed |
Dielectric Constant: |
9.5 |
Zirconia Ceramics are a type of advanced ceramic material that is known for its exceptional strength, hardness, and resistance to wear and corrosion. It is made from zirconium dioxide (ZrO2), a highly durable and heat-resistant material that is commonly used in various industries, including aerospace, electronics, and medical.
Zirconia Ceramics are known for their pure white color, which gives them a clean and elegant appearance. This makes them a popular choice for high-end applications where aesthetics are important.
Zirconia Ceramics are widely used in the production of ceramic rings, tubes, and rods. These products are known for their high strength, excellent thermal and chemical resistance, and precise dimensions, making them ideal for a variety of industrial and commercial applications.
Zirconia Ceramics are made from high-quality zirconia material, which is known for its superior mechanical and physical properties. It is an ideal material for high-performance ceramic products due to its high strength, low thermal conductivity, and excellent resistance to wear and corrosion.
Zirconia Ceramics can be shaped using two main methods - dry pressing and hot pressing. Dry pressing involves compacting the zirconia powder into a mold under high pressure, while hot pressing involves heating the powder and then pressing it into shape. Both methods result in high-quality and precise ceramic products.
Zirconia Ceramics have a high dielectric constant of 9.5, which makes them an excellent choice for electrical insulation applications. This property, along with their high strength and thermal resistance, makes them a popular choice for electronic components and devices.
Zirconia Ceramics are widely used in the food industry for their excellent chemical and corrosion resistance. They are commonly used in food filling valves and other structural components due to their ability to withstand harsh environments and maintain food safety and hygiene standards.
In conclusion, Zirconia Ceramics are a highly versatile and durable material that offers numerous advantages over other types of ceramics. They are widely used in various industries and applications, and their popularity is only expected to grow as more industries discover the benefits of this advanced ceramic material.
Property | Value |
---|---|
Coefficient Of Thermal Expansion | 10.3 X 10^-6/K |
Young's Modulus | 210 GPa |
Shaping Method | Dry Pressed, hot Pressed |
Tolerance | As Design Drawing Or OEM |
Dielectric Strength | 9.5 KV/mm |
Key Word | Ceramic Ring Tube Rod |
Material | Zirconia Ceramics |
Ring Bevel Machining | Single Bevel / Double Bevel |
Bending Strength | 950-1200 Mpa |
Flexural Strength | 1100-1300 HV |
Key Word | Description |
---|---|
Zirconia Ceramic Plunger | A plunger made from zirconia ceramics, often used in high pressure pumps and valves. |
Zirconia Ceramic Niddle | A niddle made from zirconia ceramics, used for precision injection and dispensing processes. |
Zirconia Plunger | A plunger made from zirconia, a type of ceramic material known for its high strength and wear resistance. |
Zirconia Niddle | A niddle made from zirconia, a type of ceramic material known for its high strength and wear resistance. Often used in medical, aerospace, and industrial applications. |
Zirconia ceramics, also known as zirconium oxide or zirconium dioxide, is a versatile material with exceptional properties such as high strength, hardness, and wear resistance. Its unique combination of properties makes it suitable for a wide range of applications in various industries. In this article, we will explore the different applications of zirconia ceramics and how it is shaping the future of these industries.
Zirconia ceramics can be shaped using two methods: dry pressed and hot pressed. In the dry pressing method, zirconia powder is compacted under high pressure to form the desired shape. This method is suitable for producing simple shapes with high precision and density. On the other hand, hot pressing involves heating the zirconia powder at a high temperature and applying pressure to form a more complex shape. This method results in a higher density and improved mechanical properties, making it suitable for more demanding applications.
Zirconia ceramics are known for their exceptional flexural strength, which is a measure of a material's resistance to bending or breaking under stress. With a flexural strength range of 1100-1300 HV, zirconia ceramics are stronger than most other ceramics and even some metals. This makes it an ideal material for applications that require high strength and durability, such as cutting tools, bearings, and medical implants.
One of the most common applications of zirconia ceramics is in the form of ceramic rings, tubes, and rods. These components are used in a wide range of industries, including aerospace, automotive, electronics, and medical. Zirconia ceramic rings are commonly used in mechanical seals, bearings, and valves due to their high strength, wear resistance, and chemical inertness. Zirconia ceramic tubes and rods, on the other hand, are used in applications that require high thermal and electrical insulation, such as in heating elements and electronic components.
Zirconia ceramic rings can be machined with either a single bevel or double bevel. This machining process involves cutting a beveled edge on the inside or outside diameter of the ring to create a precise fit and seal. Single bevel machining is suitable for applications with low pressure and moderate temperature, while double bevel machining is used for high-pressure and high-temperature applications. This makes zirconia ceramic rings ideal for use in fluid filling valves, where a tight seal is crucial to prevent leakage.
Zirconia ceramics can be manufactured to very tight tolerances, ensuring high precision and accuracy in the final product. These tolerances can be as per the design drawing or customized according to the specific needs of the customer. This makes zirconia ceramics a preferred choice for applications that require high precision and tight tolerances, such as medical devices, aerospace components, and electronic equipment.
Zirconia ceramics are widely used in fluid filling valves due to their superior properties such as high strength, wear resistance, and chemical inertness. These valves are used in various industries, including oil and gas, chemical, and pharmaceutical, to control the flow of fluids. Zirconia ceramic valves offer a longer service life and better performance compared to traditional metal valves, making them a cost-effective and reliable solution for fluid control applications.
Thanks to its excellent thermal and electrical insulation properties, zirconia ceramic tubes are widely used in high-temperature applications. These tubes can withstand temperatures up to 2400°C, making them ideal for use in heating elements, thermocouples, and other high-temperature equipment. Zirconia ceramic tubes are also chemically inert, making them suitable for use in corrosive environments.
Zirconia ceramic plungers are used in high-pressure applications, such as pumps and hydraulic systems, due to their high strength and wear resistance. These plungers can withstand pressures up to 400 MPa, making them an excellent choice for demanding applications. Zirconia ceramic plungers also offer a longer service life compared to metal plungers, reducing maintenance and replacement costs.
Zirconia ceramic nozzles are widely used in precision spraying applications, such as in the chemical and semiconductor industries. These nozzles are highly resistant to wear and corrosion, ensuring a longer service life and consistent performance. Zirconia ceramic nozzles also offer high precision and accuracy in spraying, making them ideal for applications that require a uniform and precise spray pattern.
Zirconia ceramics have revolutionized various industries with their exceptional properties and versatility. From fluid filling valves and high-temperature equipment to precision spraying and high-pressure applications, zirconia ceramics have proven to be a superior material choice. With its ability to be shaped in different ways and customized to meet specific requirements, zirconia ceramics will continue to play a significant role in shaping the future of these industries.
Zirconia Ceramic Plunger - Ideal for high pressure and high temperature applications, these zirconia ceramic plungers are precision machined for optimal performance.
Zirconia Ceramic Structure Parts - Our zirconia ceramic structure parts are highly durable and resistant to wear and corrosion, making them perfect for use in various structural applications.
Zirconia Ceramic for Fluid Filling Valve - Our zirconia ceramic is the perfect material for fluid filling valves, providing excellent sealing properties and high resistance to chemical and thermal degradation.
Zirconia Ceramic for Liquid Dispensing System - With its superior strength and durability, zirconia ceramic is an ideal choice for liquid dispensing systems, ensuring reliable and precise dispensing every time.