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

(Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible)

Specifications of Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible

The Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible is designed for high-temperature applications. It is made from premium-grade zirconia stabilized with magnesium oxide. This ensures exceptional thermal stability. The material resists extreme temperatures up to 1750°C. It maintains structural integrity under rapid heating or cooling cycles. The bright yellow color aids quick visual identification in lab or industrial settings. The crucible’s chemical composition prevents reactions with most molten metals. It is ideal for melting alloys like platinum or gold. Acids and alkalis have minimal effect on the material. This makes it suitable for aggressive chemical environments. The low thermal expansion coefficient reduces cracking risks. The dense structure minimizes material porosity. Contamination risks are lowered during sample processing. Smooth inner surfaces simplify cleaning. Residue from previous uses is less likely to stick. The crucible’s shape promotes even heat distribution. Temperature gradients across the material are reduced. Consistent results are achievable in repeated experiments. Standard sizes range from 10 ml to 500 ml capacities. Custom dimensions are available for specialized setups. The product works with induction furnaces and resistance heating systems. Handling tools are recommended to avoid thermal shock during transfers. Initial preheating is advised for moisture-sensitive applications. The crucible’s durability ensures a long service life. Frequent replacements are unnecessary under normal conditions. It serves industries like metallurgy, aerospace, and semiconductor manufacturing. Research labs use it for material synthesis and analysis. Performance remains stable in oxidizing or inert atmospheres. Proper storage in dry conditions prevents accidental moisture absorption. Inspection for surface cracks before each use is recommended. Minor wear does not immediately compromise functionality. Bulk orders include protective packaging to prevent transit damage. Technical support is available for usage guidelines or troubleshooting.

(Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible)

Applications of Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible

The Sintyron MgO Stabilized Yellow Ceramic Zirconia Crucible is designed for high-temperature industrial processes. It handles extreme heat, resists thermal shock, and stays stable in harsh conditions. This crucible works well in metallurgy, chemical processing, materials science, and electronics manufacturing.

In metallurgy, the crucible melts precious metals like gold, platinum, and alloys. It withstands temperatures over 1800°C without cracking. The MgO stabilization prevents reactions with molten metals. This keeps the materials pure.

Chemical labs use the crucible for processing corrosive substances. It resists acids, alkalis, and aggressive chemical reactions. This makes it reliable for experiments involving molten salts or reactive compounds. The material does not degrade easily.

Materials science labs rely on the crucible for sintering advanced ceramics and composites. It maintains structural integrity during repeated heating cycles. Researchers use it to develop high-performance materials for aerospace or medical devices. The crucible’s low thermal expansion reduces stress during temperature changes.

Electronics manufacturers apply it in crystal growth for semiconductors. The crucible’s purity prevents contamination of silicon or gallium arsenide. It ensures consistent quality in components like microchips or sensors.

The yellow ceramic zirconia composition improves performance. It reflects heat evenly, reducing energy waste. The crucible lasts longer than traditional alumina or quartz options. It requires fewer replacements, lowering operational costs.

Industrial furnaces use the crucible for continuous production. It handles rapid cooling without damage. This suits processes like metal casting or glass formation. Workers find it easy to handle due to its lightweight design.

The Sintyron crucible meets strict safety standards. It produces minimal dust or particles during use. This protects sensitive environments like cleanrooms. Its non-porous surface prevents material buildup, simplifying cleaning.

This product suits both research and large-scale manufacturing. It adapts to custom shapes or sizes for specialized applications. Users report fewer defects in final products compared to alternatives. The crucible’s durability ensures reliable performance across industries.

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)

Payment Methods

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

Shipment Methods

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

5 FAQs of Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible

What is Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible made of?
It is made from zirconia ceramic stabilized with magnesium oxide (MgO). The material ensures high thermal stability and chemical resistance. The yellow color comes from stabilization additives. This composition prevents cracks under extreme heat.

What maximum temperature can it handle?
It withstands temperatures up to 2200°C. This makes it suitable for high-heat processes like metal melting. The MgO stabilization boosts heat resistance. Ordinary crucibles often fail at lower temperatures.

Why choose this crucible over others?
It resists thermal shock better than alumina or graphite crucibles. Corrosion from molten metals or chemicals is less likely. The structure stays stable through rapid heating or cooling. Lifespan is longer compared to standard options.

What applications is it best for?
Use it in metallurgy for melting alloys like platinum or titanium. Labs benefit for analytical testing under extreme heat. It works in semiconductor production or aerospace part sintering. Any high-temperature industrial process needing durability fits.

How should I handle and maintain it?
Avoid sudden temperature changes to prevent stress cracks. Heat or cool it gradually. Clean with non-abrasive tools after use. Store in a dry area away from contaminants. Check for surface damage before reuse.

(Sintyron Mgo Stabilized Yellow Ceramic Zirconia Crucible)