1. Alumina ceramic crucibles heat resistant about 1600 degrees, suitable for K2S207 and other acidic materials melting samples. 2. The alumina ceramic crucibles can be boiled and cleaned by dilute HCl to ensure the purity of the material and its high temperature resistance. 3. Alumina ceramic crucibles material high density, good oxidation resistance, 400-500 degrees higher than graphite material, up to 900 degrees, long service life. 4. Alumina ceramic crucibles has high heat resistance, low thermal expansion coefficient, good thermal shock resistance and good corrosion resistance. 5. Alumina ceramic crucibles stable chemical properties, basically no reaction with the melted metal, improve the purity of the alloy.

1. High Thermal Stability: Alumina ceramic crucibles can endure temperatures up to 1800°C, allowing for high-temperature experiments and processes without the risk of melting or thermal degradation. 2. Corrosion Resistance: The inert nature of alumina provides excellent resistance to chemical corrosion, ensuring that the crucibles remain unaffected by acids, alkalis, and other reactive substances commonly used in laboratories. 3. Mechanical Strength: The robust structure of alumina ceramics crucible ensures durability and resistance to mechanical stress, reducing the likelihood of cracking or breaking during handling and use. 4. Purity and Chemical Inertness: With a purity level typically above 99%, alumina ceramic crucibles offer a contaminant-free environment, crucial for precise and accurate chemical analysis.

1. Alumina ceramic crucibles are made from alumina (aluminum oxide). 2. High Thermal Resistance: Alumina ceramic crucibles long-term use at 1600 ℃, short-term use at 1800 ℃. 3. Chemical Inertness: Alumina ceramic crucibles exhibit excellent resistance to most acids, ensuring the integrity of samples during analysis. 4. Mechanical Strength: Alumina ceramic crucibles possess robust mechanical properties, preventing deformation or breakage even under high stress conditions. 5. Uniform Heating: The thermal conductivity of alumina ceramic ensures uniform heating of samples, facilitating consistent and reliable results. 6. Versatility: Alumina ceramic crucibles find applications in various industries, including metallurgy, chemistry, materials science, and research laboratories.

A. Small experimental kiln, experimental electric furnace adjustment formula and other purposes. Melting metals, precious metals, optical glass B. It can be used in shuttle kilns and push-board kilns to burn color materials, colorants, frit, pigments, luminescent materials, etc. C. Used for the analysis and firing of rare earth and other mineral raw materials, and the firing of high-temperature products such as ceramic powder.

1. Alumina Ceramic Crucible crafted from premium-grade alumina ceramic. 2. Exceptional Thermal Stability: Alumina ceramic crucible offers outstanding resistance to high temperatures, ensuring stability and integrity under extreme heat conditions. 3. Chemical Resistance: Alumina Ceramic Crucible this trait enhances the reliability and longevity of the crucible across various experimental environments. 4. Mechanical Strength: Alumina Ceramic Crucible this strength facilitates repeated use and ensures consistent performance over time. 5. Precise Containment: Alumina Ceramic Crucible uniform shape and composition enable reliable results in processes such as sample preparation, chemical synthesis, and material analysis. 6. Versatility: Alumina ceramic crucibles find utility across a spectrum of industries, including metallurgy, chemistry, materials science, and pharmaceuticals.

1. High Thermal Stability: Alumina ceramic crucibles boast remarkable heat resistance, capable of withstanding extreme temperatures encountered during metal melting processes. 2. Chemical Inertness: The inert nature of alumina ensures minimal interaction between the alumina ceramic crucible material and the molten metal, preserving the integrity and purity of the sample being analyzed. 3. Mechanical Strength: Alumina ceramic crucibles exhibit excellent mechanical strength, resisting thermal shock and physical damage during handling and thermal cycling. 4. Uniform Heating: The homogeneous thermal conductivity of alumina ensures uniform heating of the alumina ceramic crucible contents, facilitating even melting and homogenization of the molten metal.

1. Alumina Ceramic Crucible Cover is mainly made of alumina. 2. Alumina Ceramic Crucible Cover is fired at high temperature with a special formula. 3. Alumina Ceramic Crucible Cover is a refractory with high fire resistance. It can withstand temperatures of 1800 degrees Celsius and high temperature resistance. 4. Alumina Ceramic Crucible Cover is usually used for smelting precious metals, nickel And other metals, with excellent chemical resistance and high temperature resistance.

1. Alumina ceramic crucible easy to clean and keep clean.Easy to clean after dyeing. 2. Alumina ceramic crucible porcelain hole is very few, water absorption rate is very low.The solution is stored in sealed ceramic crucible to prevent the evaporation, penetration and invasion of foreign bacteria. 3. Alumina ceramic crucible stable chemical properties, durable.This point is better than copper, iron, aluminum and other metal products. 4. Alimina ceramic crucible has a certain acid, alkali, salt and atmospheric carbonate gas erosion ability, not easy to react with these substances, not easy to rust aging. 5. good thermal stability, slow heat transfer.Alumina ceramic crucible has a certain temperature change under the rapid cooling and rapid heat is not easy to crack performance, better than glass, is a bad conductor of heat, heat conduction is slow, used for holding boiling water or hot solution, it is not easy to hot hands.

1. Alumina ceramic crucible, also known as corundum crucible. Contains over 99% AL2O3. 2. The shape of alumina ceramic crucibles is mainly cylindrical, conical, square, etc 3. Alumina ceramic crucibles can be used for a long time at 1650 ℃, and can also be used at temperatures as high as 1800 ℃. But it can only be used for a short period of time. 4. Alumina ceramic crucibles have good resistance to rapid heating and cooling, and are not easy to explode. 5. Alumina ceramic crucibles have good high-temperature insulation and mechanical strength.

1. Alumina ceramic crucible is a container made of aluminum oxide (Al2O3) ceramic material. 2. Alumina ceramic crucibles are commonly used for high-temperature applications in laboratory and industrial environments. 3. The design of alumina ceramic crucibles can withstand extreme temperatures and chemical reactions, and is suitable for melting, calcination, and heating various substances. 4. Alumina ceramic crucibles exhibit excellent thermal shock resistance, chemical inertness, and mechanical strength. 5. Alumina ceramic crucibles come in various shapes and sizes to meet different experimental or industrial requirements.