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

(Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation)

Specifications of Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation

The Zirconium Oxide (ZrO2) Zirconia Ceramic Crucible with Gap for Thermal Insulation is designed for high-temperature applications. It is made from zirconium oxide stabilized with materials like yttrium oxide. This ensures high chemical purity and stability. The crucible handles temperatures up to 2400°C. It resists thermal shock and maintains strength under extreme heat.

The gap in the crucible creates an air layer between inner and outer walls. This layer acts as insulation. It reduces heat loss and improves energy efficiency. The design keeps external surfaces cooler. It protects equipment and enhances safety.

Zirconia ceramic has low thermal conductivity. Heat transfers slowly through the material. This supports consistent heating in processes. The crucible works well in rapid temperature changes. It avoids cracking or damage.

Mechanical strength is high. The material resists wear and abrasion. It stays durable in harsh conditions. Corrosion resistance is strong. The crucible handles acids, alkalis, and molten metals. It suits aggressive chemical environments.

Applications include laboratory experiments, industrial furnaces, and metal melting. It is ideal for crystal growth and high-purity material processing. The crucible fits vacuum and controlled-atmosphere setups.

Multiple sizes are available. Custom dimensions and gap widths meet specific needs. The product is precision-engineered for reliability. It ensures long service life under demanding conditions.

This zirconia ceramic crucible combines advanced material properties with smart design. It optimizes thermal management and performance. Users benefit from reduced energy costs and improved process control. The product meets standards for research and industrial use.

(Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation)

Applications of Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation

Zirconium oxide (ZrO2) zirconia ceramic crucibles with gaps for thermal insulation serve critical roles in high-temperature processes. These crucibles handle extreme heat well. They work in temperatures over 2000°C. This makes them ideal for melting metals, alloys, and advanced materials. The gap design improves thermal insulation. It reduces heat loss. This keeps temperatures stable longer. Energy efficiency improves. Operating costs drop.

These crucibles resist chemical corrosion. They stay stable in acidic or alkaline environments. This makes them reliable for harsh industrial settings. Labs use them for precise experiments. They prevent contamination. Sample purity stays high. Industries like aerospace and electronics rely on them for producing high-performance components.

The thermal insulation gap is a key feature. It creates an air layer. This layer slows heat transfer. It shields external temperature changes. Processes stay consistent. Results become repeatable. Users avoid sudden temperature shifts. Material waste decreases.

Zirconia ceramic crucibles last long. They handle rapid heating and cooling. Cracking or wear is rare. Maintenance needs are low. This reduces downtime. Productivity rises. They fit furnaces, kilns, and induction heaters. Their shape suits small and large batches.

Specialized fields use these crucibles. Jewelry makers melt precious metals. Researchers grow crystals. Nuclear industries manage radioactive materials. The material’s low thermal conductivity helps. Heat stays focused where needed. Safety improves.

These crucibles support eco-friendly practices. Better insulation cuts energy use. Emissions drop. Manufacturers meet sustainability goals. Costs stay manageable. Performance stays high.

Custom sizes and gap widths are available. Users match specific process needs. Versatility grows. Applications expand. These crucibles solve challenges in extreme heat environments. They blend durability with precision. Industries trust them for critical tasks.

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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Shipment Methods

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

5 FAQs of Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation

What is the maximum temperature a zirconia ceramic crucible can handle? The crucible withstands temperatures up to 2400°C. It works well in high-heat settings like metal melting or lab tests. The material stays stable even under rapid temperature shifts. This makes it better than many other ceramics.

Why does the crucible have a gap for thermal insulation? The gap reduces heat loss by trapping air. Air is a poor heat conductor. This keeps the inner part hotter longer. It saves energy during experiments or industrial processes. The design improves efficiency.

Can zirconia crucibles handle corrosive chemicals? Yes. Zirconia resists most acids and alkalis well. It works with molten metals and aggressive substances. Avoid hydrofluoric acid. It damages zirconia over time. Check chemical compatibility before use.

How do I maintain a zirconia ceramic crucible? Clean it after each use with non-abrasive tools. Do not expose it to sudden temperature changes. Let it cool slowly. Store it in a dry place. Inspect for cracks before reuse. Replace if damage is visible.

Where are these crucibles commonly used? Labs use them for high-temperature experiments. Industries apply them in metal casting or glassmaking. They suit vacuum or controlled atmosphere furnaces. Research labs pick them for their durability and insulation. They fit processes needing heat control and material purity.

(Zirconium Oxide ZrO2 Zirconia Ceramic Crucible with Gap for Thermal Insulation)