Overview of Yttrium Oxide/yttria/Y2O3 Ceramic Crucible

Yttrium Oxide/yttria/Y2O3 Ceramic Crucible are specialized containers designed for withstanding extremely high temperatures in laboratory and industrial settings. They are essential for processes such as melting, calcining, and heat-treating a wide variety of materials, including metals, glasses, and chemicals. Our crucibles are engineered for superior thermal stability and chemical resistance, ensuring purity and reliability in the most demanding applications.

Features of Yttrium Oxide/yttria/Y2O3 Ceramic Crucible

• Exceptional Thermal Shock Resistance: Withstands rapid temperature changes without cracking, ensuring durability and a long service life.

• High-Temperature Stability: Maintains structural integrity at extreme temperatures, often exceeding 1500°C.

• Excellent Chemical Inertness: Resists corrosion and reaction with molten metals, acids, and aggressive chemical fluxes.

• High Purity & Low Contamination: Manufactured from premium materials to prevent sample contamination during sensitive processes.

• Optimized Thermal Properties: Designed for efficient heat transfer and consistent performance in furnace environments.

• Robust Mechanical Strength: Offers good resistance to physical impact and abrasion during handling and use.

Specifications of Yttrium Oxide/yttria/Y2O3 Ceramic Crucible

Yttrium oxide ceramic crucibles offer extraordinary efficiency for demanding high-temperature procedures. These crucibles include over 99.9% pure Y ₂ O TWO. This high purity lessens contamination of sensitive thaws. The product attains a theoretical thickness going beyond 99%. This dense framework prevents leaks and enhances durability.

Yttria crucibles stand up to severe temperature levels. They run continuously in air approximately 2200 ° C. They deal with short direct exposures even hotter. This surpasses many other oxide ceramics. The material withstands thermal shock extremely well. It broadens little when heated and cools down without splitting easily. This toughness is vital for quick heating or cooling cycles.

Chemical security defines yttria crucibles. They stand up to assault from numerous responsive steels and alloys. Liquified titanium, zirconium, and uranium alloys respond minimally with yttria. Crucibles also withstand rust from specific aggressive fluoride slags. This inertness protects thaw pureness. Crucibles show excellent resistance to alkaline substances. Acid resistance is usually reduced, particularly versus strong acids.

The product has low thermal conductivity. Warm transfers slowly with the crucible wall. This property aids keep secure, uniform melt temperature levels. It likewise boosts energy efficiency throughout extended home heating. The smooth, sleek surface area coating is one more crucial attribute. It reduces sticking for easier melt elimination and crucible cleaning after usage. This surface area also reduces the possibility of melt contamination.

Applications of Yttrium Oxide/yttria/Y2O3 Ceramic Crucible

Yttria ceramic crucibles are unique containers made from yttrium oxide (Y2O3). They deal with extreme warm exceptionally well. This makes them essential for demanding industrial processes. Their standout function is resisting attack by responsive molten metals. Lots of other ceramics fail right here. Yttria crucibles accurately hold products like titanium, zirconium, and tantalum throughout melting. These steels are critical for aerospace and medical implants. The crucibles remain undamaged. They do not infect the melt.

Heat security is one more crucial benefit. Yttria maintains its form and stamina even over 2000 ° C. This is essential for crystal growth techniques. Processes like sapphire crystal pulling demand this stability. Constant warm is crucial for expanding huge, top quality crystals. Yttria crucibles offer that stable atmosphere. They stand up to the intense warmth for long periods.

Pureness matters a lot in sophisticated manufacturing. Yttria crucibles succeed here also. They launch very few contaminations into the materials refined within. This is non-negotiable for semiconductors and high-purity steels. Also small contaminants destroy electronic components. Yttria makes sure the melt keeps tidy. It protects against unwanted aspects from leaching into delicate products.

Their chemical inertness is a major advantage. Severe chemical environments don’t harm them easily. This resistance is important when collaborating with aggressive changes or reactive environments. The crucible material won’t react with the process chemicals. This ensures process integrity. It shields the honesty of the final product. Industries needing ultra-pure results rely on this dependability.

Company Profile

Tanki New Materials Co.Ltd. focus on the research and development, production and sales of ceramic products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2015, 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 Aerogel, Aluminum Nitride, Aluminum Oxide, Boron Carbide, Boron Nitride, Ceramic Crucible, Ceramic Fiber, Quartz Product, Refractory Material, Silicon Carbide, Silicon Nitride, ect. please feel free to contact us.

Payment Methods

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

Shipment Methods

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

5 FAQs of Yttrium Oxide/yttria/Y2O3 Ceramic Crucible

Here are five common questions about Yttrium Oxide (Yttria, Y2O3) Ceramic Crucibles:

What is a Yttria Crucible made of?
A Yttria crucible is made mostly from Yttrium Oxide powder. People call this material Yttria or Y2O3. This powder gets pressed and heated very hot. This process makes a strong ceramic crucible.

How much heat can a Yttria Crucible handle?
These crucibles handle extreme temperatures well. They work fine up to 2200 degrees Celsius in air. They can handle even higher temperatures in special atmospheres. This is a key reason people choose them.

Why pick a Yttria Crucible over other types?
Yttria crucibles resist chemical attack very well. They don’t react easily with many molten metals and oxides. This is especially true for reactive metals like titanium or uranium. Other crucible materials often react badly with these. Yttria stays stable.

Where do people typically use Yttria Crucibles?
They are vital in research labs and high-tech industries. People use them for melting reactive metals. They are also used for processing rare earth elements. Another important use is sintering advanced ceramics. They are common in crystal growth too.

How does Yttria compare to Alumina crucibles?
Alumina crucibles are cheaper and good for many jobs. Alumina crucibles work differently. They can be damaged by very reactive materials or strong bases. Yttria crucibles handle these harsh conditions much better. But Yttria crucibles cost more money.