Overview of Zirconium Dioxide Ceramics

Zirconium Dioxide Ceramics, known for their toughness and ability to withstand extreme temperatures, are widely used in medical, automotive, and industrial applications due to their unique properties.

Features of Zirconium Dioxide Ceramics

Exceptional fracture toughness

High thermal expansion

Excellent resistance to wear and corrosion

Biocompatibility for medical implants

(High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible)

Specifications of High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible

High-temperature Y2O3-ZrO2 zirconia ceramic crucibles are designed for extreme heat and harsh conditions. The product integrates yttrium oxide (Y2O3) and zirconium dioxide (ZrO2) for enhanced stability. This crucible takes care of temperatures approximately 2200 ° C in constant use. It works for temporary direct exposure to 2400 ° C. The framework resists thermal shock during quick temperature level adjustments.

The crucible has high thickness. Common density ranges from 5.8 to 6.1 g/cm ³. This reduces porosity. It boosts resistance to chemical deterioration. The product remains inert versus acids, alkalis, and molten metals. It protects against contamination during high-purity procedures.

Mechanical strength is a crucial attribute. Flexural toughness goes beyond 800 MPa. Compressive toughness surpasses 2000 MPa. The crucible maintains shape under hefty tons. It fits applications needing structural honesty.

Dimensions vary based upon customized demands. Requirement dimensions include diameters from 20 mm to 300 mm. Levels array from 30 mm to 400 mm. Wall density stays in between 3 mm and 15 mm. Customized forms are available for specialized configurations.

Thermal conductivity is reduced. It standards 2.5 W/m · K. This makes certain also warmth distribution. It minimizes power loss. The crucible works in induction furnaces, resistance heating units, and gas-fired environments.

Surface surface choices consist of polished or as-sintered. Polished surfaces minimize sticking of liquified materials. Roughness (Ra) can get to 0.2 µm. The crucible works with platinum, uncommon earth metals, and semiconductor materials.

Electrical insulation homes are solid. Quantity resistivity exceeds 10 ^ 10 Ω · cm at 1000 ° C. It avoids current leakage in high-temperature electrical applications.

Applications cover aerospace, metallurgy, and lab research study. It thaws alloys, grows single crystals, and sinters advanced porcelains. The crucible supports vacuum and inert gas environments.

Personalization includes adding handles, lids, or layers. Added features enhance use for particular tasks. The item fulfills standards for industrial and scientific usage.

(High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible)

Applications of High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible

High-temperature Y2O3 ZrO2 zirconia ceramic crucibles combine yttrium oxide and zirconium dioxide. They work well in severe warmth. These crucibles resist chain reactions and physical wear. They remain secure under tension. Many sectors rely on them for high-performance jobs.

Metallurgy makes use of these crucibles to thaw metals like platinum and titanium. They manage temperature levels above 2000 ° C. The product does not respond with molten metals. This keeps the final product pure. They last much longer than typical crucibles in extreme problems. Frequent heating and cooling do not damage them.

Materials scientific research labs use these crucibles for advanced ceramics and composites. They preserve stability during rapid temperature shifts. This avoids cracks or bending. Experiments remain contamination-free. Researchers depend on them for accurate product advancement.

Electronic devices manufacturing depends on these crucibles for expanding solitary crystals. Semiconductors like silicon need accurate conditions. The crucibles give a secure atmosphere for crystal development. This action is vital for making LEDs and sensors. Their purity ensures high-quality electronic elements.

Aerospace designers test materials in extreme settings utilizing these crucibles. Jet engine components and thermal shielding call for extensive recognition. The crucibles hold up against extended exposure to warm and stress. They help generate trusted elements for airplane and spacecraft.

Precious jewelry manufacturers melt silver and gold in these crucibles. Repeated use does not deteriorate their efficiency. Precious metals stay free of pollutants. Tiny workshops and big manufacturing facilities both benefit from their resilience.

The clinical area uses them to refine bioactive products. Dental implants and surgical devices need high-temperature synthesis. The crucibles make certain regular outcomes. Their resistance to chemical rust maintains clinical items secure.

These crucibles support solar battery production. Silicon processing requires high heat and tidy problems. They satisfy these requirements without failure. Their duty in renewable energy innovation expands as need rises.

Industrial finishes rely upon these crucibles for thermal spray procedures. They thaw materials sprayed onto surface areas for defense. The crucibles withstand continual procedure. This reduces downtime in production.

Atomic energy research uses them to handle radioactive materials. Their security under radiation and warm makes them perfect. Experiments continue safely with marginal danger of contamination.

These crucibles serve crucial duties throughout sectors. Their design addresses the challenges of high-temperature applications. Performance and dependability make them a common option in demanding settings.

Company Introduction

Advanced Ceramics founded on October 17, 2014, is a high-tech enterprise committed to the research and development, production, processing, sales and technical services of ceramic relative materials and products.. Since its establishment in 2014, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Silicon carbide ceramic products, Boron Carbide Ceramic Products, Boron Nitride Ceramic Products, Silicon Carbide Ceramic Products, Silicon Nitride Ceramic Products, Zirconium Dioxide Ceramic Products, Quartz Products, etc. Please feel free to contact us.(nanotrun@yahoo.com)

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T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible

What is the maximum temperature a Y2O3 ZrO2 crucible can handle? These crucibles withstand temperatures up to 1750°C. The Y2O3 stabilizes the zirconia structure. This prevents cracking under extreme heat. The material stays stable. It shows minimal thermal deformation. This makes it reliable for prolonged high-temperature processes.

Does Y2O3 ZrO2 resist chemical corrosion? Yes. The crucible resists most acids, alkalis, and molten metals. The dense ceramic structure blocks reactive substances. It avoids chemical breakdown. This keeps the melted materials pure. It works well in corrosive environments. No chemical residues form on the crucible surface.

How durable are Y2O3 ZrO2 crucibles compared to others? They last longer than alumina or quartz crucibles. Y2O3 ZrO2 has higher fracture toughness. It handles thermal stress better. The material resists wear from repeated heating. It reduces cracks or chips. Users replace these crucibles less often. This lowers long-term costs.

What industries use Y2O3 ZrO2 crucibles? They are common in metallurgy, laboratories, and semiconductor production. They melt rare metals, alloys, or advanced ceramics. The crucibles suit precision processes. They work in vacuum or inert gas environments. High-purity applications rely on their stability.

How should I handle these crucibles to avoid damage? Avoid mechanical shock. Do not drop or strike them. Sudden temperature changes cause stress. Heat or cool them gradually. Clean with mild detergents or alcohol. Do not use abrasive tools. Dry thoroughly before reheating. Inspect for cracks after each use. Replace if defects appear.

(High Temperature Y2O3 Zro2 Zirconia Ceramic Crucible)