Introduction of High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts

Industrial ceramic crucible is a high temperature resistant and corrosion resistant laboratory and industrial container, designed for metal smelting, chemical analysis and high temperature reaction. It is made of high purity ceramic material to ensure excellent thermal stability and chemical inertness.

Features of High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts

Extreme high temperature resistance

Can withstand high temperature above 1600°C, suitable for high temperature processes such as molten metal and glass.

Excellent thermal shock resistance

Low thermal expansion coefficient, resists rapid cooling and heating, and reduces the risk of cracking.

High chemical stability

Resistant to acid, alkali and molten salt corrosion, ensuring the purity of experiments or production.

Low pollution & long life

The material is dense and non-porous, avoiding sample contamination and durable.

Diverse choices

Provide materials such as alumina, zirconium oxide, silicon carbide, etc., suitable for different application scenarios.

(High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts)

Specifications of High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts

This alumina zirconia SiC ceramic crucible manages extreme warmth. It functions dependably up to 2400 ° C. This makes it ideal for extremely hot procedures. The product combines alumina, zirconia, and silicon carbide. This mix provides exceptional thermal shock resistance. The crucible won’t break easily going from hot to cool. It likewise has wonderful mechanical stamina. It stands up to wear and abrasion well. This means the crucible lasts longer under challenging conditions. Its chemical stability is extremely high. It doesn’t react with several molten metals, slags, or changes. This maintains your melts pure. The crucible uses low thermal development. Abrupt temperature level adjustments create much less anxiety. It keeps its sizes and shape well. This stability is crucial for specific job.

The crucible reveals outstanding corrosion resistance. Severe chemicals and aggressive thaws damage it less. It deals with oxidizing and minimizing environments. You obtain constant efficiency. The surface is extremely smooth. This lessens material sticking. Clean-up is simpler. Crucible components can be found in numerous basic shapes and sizes. Custom layouts are possible also. This fits various heating system setups and tasks. These crucibles are vital in laboratories and sector. They thaw metals like platinum, palladium, and unique alloys. They refine advanced ceramics and glass. They operate in high-purity semiconductor crystal growth. They serve well in chemical evaluation and research study. They are necessary for high-temperature screening. You require durable, trusted devices for severe warm. This crucible provides that efficiency. It endures conditions others can not. It uses a reputable option for your most popular applications.

(High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts)

Applications of High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts

These crucibles handle extreme warm. They reach 2400 ° C accurately. That’s much hotter than many metals melt. Their unique mix makes this feasible. Alumina gives fundamental strength. Zirconia improves sturdiness. SiC adds incredible warm resistance and thermal shock protection. With each other, they create a super product.

This sturdiness is important. Crucibles face extreme conditions. They hold liquified metal. They sustain quick temperature adjustments. They stand up to chemical attack. Criterion ceramics usually break or deteriorate. These crucibles don’t. They endure duplicated usage. They save money over time. You stay clear of continuous substitutes.

Several sectors depend on them. Steel shops utilize them daily. They melt steel, titanium, nickel alloys. They manage reactive steels like zirconium. They work for superalloys in aerospace. Research study labs depend on them as well. Scientists check brand-new materials at ultra-high temperature levels. They need steady, inert containers. These crucibles offer that.

Chemical handling requires them. They hold corrosive chemicals during high-heat reactions. They operate in stimulant study. They sustain powder metallurgy. They sinter innovative porcelains. They expand crystals. They refine nuclear materials. Any process requiring pure, steady containment under severe heat utilizes them.

They provide clear advantages. They last much longer than graphite or routine ceramics. They prevent contamination. They maintain purity. They move warm successfully. They handle thermal cycling well. They decrease heating system downtime. They improve process security. They are crucial for pushing temperature restrictions.

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 High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts

Here are five common questions about our high temperature alumina zirconia silicon carbide ceramic crucible parts capable of reaching 2400°C:

What maximum temperature can these crucibles handle?
These crucibles reliably withstand temperatures up to 2400°C. They are designed specifically for extreme heat applications. This capability comes from the advanced alumina, zirconia, and silicon carbide blend.

Are these crucibles resistant to chemical reactions?
Yes, they offer strong chemical resistance. This resistance applies to many molten metals, salts, and slags. The specific materials processed determine the exact level of resistance. Always check compatibility with your intended materials first.

How long do these crucibles typically last?
Crucible lifespan varies significantly. Factors include peak temperature reached, heating and cooling rates, materials processed, and handling care. Consistent operation below 2400°C generally extends service life. Proper use helps maximize longevity.

Can these crucibles handle rapid temperature changes?
Thermal shock resistance is good but not unlimited. Avoid extremely rapid heating or quenching. Gradual temperature changes are best. Think about sudden temperature changes during use. This minimizes stress cracking risk.

What special handling do these crucibles require?
Handle them carefully. They’re brittle. Avoid impacts or drops. Use proper tools for lifting hot crucibles. Never place a hot crucible on a cold, wet surface. Thermal shock can break it. Always follow recommended heating and cooling procedures.

(High Temperature Up To 2400C Alumina Zirconia SiC Ceramic Crucible Parts)