1. Premium Material: Constructed from high-purity alumina ceramic. 2. High-Temperature Stability: Alumina Ceramic Boat with a melting point exceeding 1800°C. 3. Precision Design: Each alumina ceramic boat is precisely machined to achieve consistent dimensions, ensuring uniformity and reliability in sample handling. 4. Versatile Applications: Alumina Ceramic Boat used research laboratories, industrial settings, or academic institutions. 5. Easy Maintenance: Alumina Ceramic Boat require minimal maintenance, contributing to long-term cost savings and uninterrupted workflow. 6. Customization Options: Available in various sizes and configurations, including rectangular, cylindrical, and custom-designed shapes.

1. Alumina laboratory crucibles stand as stalwart vessels within the realm of scientific experimentation, Crafted from alumina. 2. Alumina laboratory crucibles compound's innate characteristics furnish the crucible with exceptional resistance to extreme temperatures, corrosive substances, and mechanical stress. 3. Alumina laboratory crucibles exhibit a robust, cylindrical structure, meticulously crafted to withstand the rigors of high-temperature operations.

1. Superior Heat Resistance: Alumina ceramic square crucible constructed from premium alumina ceramic. 2. Chemical Inertness: Alumina ceramic square crucible this property enhances the reliability and accuracy of experimental results. 3. Square Design: Alumina ceramic square crucible the square shape of the crucible provides distinct advantages over traditional round crucibles. 4. Uniform Heating: Alumina ceramic square crucible this feature is particularly advantageous for processes requiring precise temperature control and homogeneous heating. 5. Versatile Applications: The alumina ceramic square crucible finds utility in a wide array of applications, including but not limited to melting, calcination, sintering, and chemical analysis.

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. High-purity alumina content 99.3% -99.5%, other alumina ceramics 92% -99%. 2. The color of high purity alumina product is milky white, and other products are pink or white. The higher the purity, the more transparent the color. 3. Alumina is a refractory material, the higher the purity, the better the refractory effect 4. After high-purity alumina ceramics are fired and cooled in a 1800-degree high-temperature kiln, the products are not easy to break when they encounter high temperatures. Other ceramics are fired at 1500 ℃ ~ 1800 ℃.

1. Porous alumina tubes are known for their excellent thermal stability, chemical resistance, and high porosity. 2. The inherent strength and thermal shock resistance of porous alumina tubes make them an ideal choice for high-temperature environments. 3. The excellent wear resistance and electrical insulation performance of porous alumina tubes enhance their functionality in various professional applications. 4. The porous alumina tube structure allows for effective gas and fluid flow, making these tubes ideal for filtration and insulation under extreme conditions.

1. Alumina threaded rods can withstand extremely high temperatures, typically exceeding 1700 ° C, making them ideal for use in harsh thermal environments. 2. Alumina threaded rods are renowned for their impressive hardness and mechanical strength 3. Alumina threaded rods have high corrosion resistance and chemical reactivity 4. Due to its excellent insulation performance, alumina threaded rods are very suitable for applications that must avoid conductivity. 5. The hardness of alumina ensures that the alumina threaded rod maintains its integrity and resists wear in a grinding environment.

1. TGA alumina crucible is made of high-purity alumina (Al2O3), which has excellent chemical stability and minimizes interactions with reactive substances. 2. TGA alumina crucible is corrosion-resistant, wear-resistant, and abrasion resistant, making it very durable when reused in high-temperature applications. 3. The low thermal expansion rate and excellent thermal shock resistance of TGA alumina crucibles further improve their reliability in strict thermal cycles, ensuring precise and consistent performance.

1. High alumina ceramic tubes are known for their excellent thermal stability and can withstand temperatures up to 1800 ° C. 2. High alumina ceramic tubes have excellent resistance to corrosion from chemical substances and corrosive environments, including acidic and alkaline substances. 3. High alumina ceramic tubes have excellent hardness and mechanical strength. 4. High alumina ceramic tubes have excellent electrical isolation performance, making them suitable for applications that require high dielectric strength and low conductivity. 5. The low thermal expansion coefficient of high alumina ceramic tubes reduces the risk of cracking or fracture due to temperature fluctuations. 6. High alumina ceramic tubes have high wear resistance, making them suitable for applications involving high friction or wear.

1. High Thermal Stability:Alumina crucibles excel in maintaining structural integrity at elevated temperatures, withstanding heat up to 1600°C or higher depending on specific grades and formulations. 2. Chemical Inertness: Resistant to most acids, bases, and solvents, alumina crucibles provide a non-reactive environment essential for handling reactive substances and conducting precise chemical reactions. 3. Mechanical Durability: With superior mechanical properties, including high hardness and abrasion resistance, alumina crucibles exhibit remarkable resilience to physical stress, ensuring longevity and reliability in laboratory operations. 4. Uniform Heating: Their excellent thermal conductivity promotes uniform heating distribution, essential for consistent experimental results and minimizing temperature differentials within the crucible.