Overview of Alumina Ceramic Crucible Square Sintered Al2O3 for Thermal Analysis Refractory Crucible

Discover our robust selection of refractory materials and monolithic solutions, engineered to provide durable linings and structural integrity for high-temperature industrial processes.

Feature of Alumina Ceramic Crucible Square Sintered Al2O3 for Thermal Analysis Refractory Crucible

• Abrasion & Corrosion Resistance: Long-lasting performance in aggressive environments.
• High Mechanical Strength: Maintain structural stability under heavy loads and stress.
• Custom Formulations: Tailored castables, cements, and bricks for specific applications.
• Versatile Applications: Ideal for furnaces, kilns, incinerators, and reactors.

Specifications of Alumina Ceramic Crucible Square Sintered Al2O3 for Thermal Analysis Refractory Crucible

This alumina ceramic crucible handles high heat reliably. It’s made from sintered aluminum oxide, known as Al2O3. This material is incredibly pure. High purity means consistent results. It also means the crucible resists chemical attack well. You won’t find unwanted reactions spoiling your samples.

The square shape offers practical advantages. It fits efficiently inside furnaces. It maximizes space usage compared to round versions. This design provides stable support for samples. The flat sides prevent rolling. Handling is straightforward.

Thermal stability is a key strength. This crucible withstands sudden temperature changes. Rapid heating or cooling won’t crack it easily. It performs reliably under thermal shock. This durability is crucial for demanding thermal analysis. It endures repeated heating cycles without degrading.

Operating temperatures are impressive. You can use it continuously up to 1650°C (3002°F). Short-term exposures can reach even higher, around 1800°C (3272°F). This covers a wide range of industrial and lab processes. It handles extreme heat effectively.

The crucible boasts excellent mechanical strength. It resists physical wear and abrasion. This toughness ensures a long service life. It minimizes the need for frequent replacements. You get dependable performance over many uses.

Its high density is another benefit. This dense structure prevents gases or liquids from seeping through. Contamination risks are low. Your materials stay pure during experiments. The smooth surface finish makes cleaning simple. Residue doesn’t stick stubbornly.

This crucible suits various applications perfectly. It’s ideal for thermal gravimetric analysis (TGA). Differential thermal analysis (DTA) works well with it. General high-temperature furnace work benefits from its stability. Metal melting processes utilize its heat resistance. Powder processing often requires this kind of robust container.

Applications of Alumina Ceramic Crucible Square Sintered Al2O3 for Thermal Analysis Refractory Crucible

Alumina ceramic crucibles square sintered Al2O3 are essential tools in demanding high-temperature work. They are made from pure aluminum oxide powder. This powder is pressed and fired at extreme heat. The result is an incredibly hard and durable crucible. These square crucibles perform exceptionally well in thermal analysis. Techniques like TGA and DSC require stable, inert containers. Alumina crucibles provide exactly that. They withstand temperatures easily exceeding 1700°C. This high melting point is crucial. They remain stable and don’t react with most samples. This ensures measurement accuracy isn’t compromised. Chemists and materials scientists need this reliability. They trust alumina crucibles for precise data.

These crucibles are also vital refractory components. Their high thermal stability makes them perfect for furnace linings and holders. They resist thermal shock very well. This means handling sudden temperature changes is possible. They won’t crack easily. This durability is a major advantage in industrial settings. Engineers rely on them for long service life under harsh conditions. They last much longer than cheaper alternatives. This reduces downtime and replacement costs significantly.

The square shape offers practical benefits. It maximizes space use inside furnaces or on sample holders. Multiple crucibles fit neatly together. This improves efficiency during batch processing. The material itself is chemically inert. It won’t contaminate sensitive samples. This purity is critical for accurate results in analysis. Alumina resists attack from acids, bases, and molten salts. It handles aggressive environments effectively. This broad chemical resistance expands its application range. Cleaning is straightforward after use. Simple methods usually work well. They are ready for reuse quickly. This saves time and money.



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.

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5 FAQs of Alumina Ceramic Crucible Square Sintered Al2O3 for Thermal Analysis Refractory Crucible

What is this alumina ceramic crucible? It’s a square container made from sintered aluminum oxide. This material is Al2O3. It’s designed for high temperature use. People need it for thermal analysis in labs. It’s also used in industrial furnaces. The crucible handles extreme heat very well.

What temperature can this crucible handle? It withstands continuous use up to 1600 degrees Celsius. That’s 2912 degrees Fahrenheit. Short bursts can go even higher. This makes it perfect for melting metals. It’s also good for analyzing ash content. The crucible won’t crack under normal heating cycles.

Is this crucible resistant to chemicals? Yes, it is highly resistant. Acids and bases don’t damage it easily. Molten salts also have little effect. This chemical stability is key. It ensures sample purity during testing. Nothing leaks out. Nothing contaminates your material. You get accurate results.

What sizes does this crucible come in? Multiple sizes are available. Common choices are 10ml, 25ml, and 50ml capacities. The square shape offers benefits. It fits tightly inside furnace chambers. It saves space on lab benches. It also makes stacking easier for storage. You can choose the size matching your furnace or sample amount.

How do I clean this crucible? Cleaning is straightforward. Let the crucible cool completely first. Use a brush to remove loose residue. For stubborn material, soak it in acid. Hydrochloric acid often works. Rinse it thoroughly with water afterward. Dry it completely before the next use. Gentle cleaning preserves the crucible’s surface. It lasts longer.