Introduction of High Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability

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 Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability

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 Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability)

Specifications of High Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability

This High Purity Magnesium Oxide (MgO) ceramic crucible offers exceptional performance for demanding high-temperature tasks. Its main material is over 99% pure magnesium oxide. This high purity is crucial. It directly enables outstanding chemical stability. The crucible strongly resists attack from many acids and alkalis. This stability is vital for reliable results.

The crucible withstands very high temperatures. Its maximum usable temperature reaches 1800°C. This makes it suitable for extreme heat processes. It also shows excellent resistance to thermal shock. Sudden temperature changes cause less cracking risk. This durability saves costs over time.

Its physical structure is dense and fine-grained. This density minimizes porosity. Less porosity means less material absorption. Samples stay purer during melting or calcining. The crucible maintains its shape well under load. It provides consistent performance run after run.

Its chemical inertness protects sensitive materials. Reactions between the crucible and sample are minimal. This purity is key for analyzing precious metals or rare earth elements. Contamination risks are significantly reduced. You get more accurate analytical data.

These crucibles work well in air or inert atmospheres. They are ideal for laboratory and industrial settings. Common uses include melting metals, sintering ceramics, and analyzing ash content. They handle aggressive fluxes reliably. This versatility makes them a practical choice for scientists and engineers needing dependable, high-temperature containers.

(High Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability)

Applications of High Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability

High purity magnesium oxide ceramic crucibles are essential tools. Their standout feature is excellent chemical stability. This means they resist attack from many substances. They handle high temperatures well too. This combination is vital for demanding applications.

One key area is metallurgy and precious metal processing. These crucibles safely hold molten metals like platinum, gold, and silver. The crucible material doesn’t react with the metal melt. This prevents contamination. You get pure metal after processing. The crucible itself stays intact. This is crucial for accurate results and cost savings.

Semiconductor manufacturing relies on these crucibles. They are used in crystal growth processes. High purity silicon or gallium arsenide crystals need extreme conditions. The MgO crucible withstands the intense heat. It resists the reactive chemicals involved. Crucible purity is critical here. Impurities from the crucible would ruin the semiconductor material. MgO delivers the needed inertness.

Chemical analysis labs use these crucibles frequently. They are perfect for sample preparation. Tasks include ashing organic materials or fusing samples. The crucible must not add elements to the sample. Its chemical stability ensures this. You get accurate analytical results. Handling strong fluxes or acids is routine. The MgO crucible survives these harsh treatments. Labs trust them for consistent performance.

Research environments value these crucibles. Scientists explore new materials and reactions. They need reliable containment vessels. The high purity MgO crucible offers a known, inert surface. Reactions happen predictably. Researchers avoid unwanted side reactions with the crucible material. This is fundamental for valid experiments. Studying high-temperature material behavior is easier. The crucible doesn’t interfere.

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 Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability

High Purity Magnesium Oxide (MgO) Ceramic Crucible FAQs

What is this crucible made from?
This crucible is made from high purity magnesium oxide ceramic. We use very pure MgO powder. This powder is specially processed. The process forms a dense, strong ceramic structure. High purity means fewer impurities. Fewer impurities mean better performance.

Why choose MgO for a crucible?
MgO ceramic offers excellent chemical stability. It resists attack from many aggressive chemicals. This includes strong alkalis and various molten salts. It doesn’t react easily. This inertness keeps your sample pure. It also makes the crucible last longer. Good chemical stability is crucial for reliable results.

How hot can I use this crucible?
This MgO crucible handles high heat well. Its maximum continuous use temperature is about 2200°C. It maintains strength and stability near this limit. It resists thermal shock reasonably well. Avoid sudden, extreme temperature changes. Always follow recommended heating and cooling rates.

How do I clean it after use?
Cleaning depends on what was inside. Often, soaking in dilute acid works. Use hydrochloric acid or nitric acid. Rinse very thoroughly with pure water afterwards. Use deionized or distilled water. Dry the crucible completely before next use. For stubborn residues, gentle mechanical cleaning might be needed. Avoid harsh abrasives.

What materials can I melt in it?
MgO crucibles work well with many materials. They are good for melting precious metals like platinum or palladium. They suit many rare earth element oxides. They handle various alkaline fluxes. They are often used in sintering processes. Avoid materials containing phosphorus or vanadium. These can damage the MgO ceramic. Check material compatibility lists first.

(High Purity Magnesium Oxide MgO Ceramic Crucible with Good Chemical Stability)