• 1.Alumina Ceramic Furnace Tubes are products made from the chemical compound with the same name ,alumina ceramic. Alumina ceramic, also known as aluminum oxide, is a combination of aluminum and oxygen. 2.Alumina Ceramic Furnace Tubes is extremely hard and durable, resistant to compressive strength, resistant to weathering, resistant to chemicals, electrically insulating, highly dense and stiff and incredibly thermally conductive. 3.Alumina Ceramic Furnace Tubes is up to twenty times more thermally conductive than the majority of other oxides.
    Send Email More
  • ▪ Alumina multi bores tube made by 99.3%-99.7% high purity alumina. ▪ Alumina ceramic porous tube max working temperature is 1800℃. ▪ The quality can pass the SGS and DIN43724/DIN43725/DIN40680. ▪ Both end open with good verticality. ▪ Can produce the 2-10 holes, max length 1850 mm.
    Send Email More
  • 1. The composition of alumina tubes is mainly composed of alumina (Al2O3). 2. Alumina tubes exhibit significant resistance to high temperature, corrosion, wear, and chemical reactions. The design of the alumina tube ensures effective heat transfer while providing a sturdy barrier against external components. 4. The smooth surface finish of the alumina tube minimizes the risk of contamination and accumulation. 5. Alumina tubes provide an economical and efficient solution for improving equipment life and performance in challenging industrial environments.
    Send Email More
  • 1. Alumina refractory ceramic crucibles crafted from high-purity alumina. 2. Alumina refractory ceramic crucibles offering exceptional thermal stability and chemical resistance. 3. Characterized by their robustness and durability, alumina refractory ceramic crucibles withstand extreme temperatures. 4. The chemical inertness of alumina refractory ceramic crucibles ensures minimal contamination, preserving the purity of the materials being processed. 5. Alumina refractory ceramic crucibles exhibit high mechanical strength. 6. Alumina refractory ceramic crucibles play a vital role in experimentation, offering a reliable vessel for conducting reactions at elevated temperatures.
    Send Email More
  • 1. The alumina rods has strong hardness, second only to diamond in hardness. 2. Alumina rods have the advantages of wear resistance, corrosion resistance, and resistance to impacts, 3. Alumina rods are non-toxic and odorless, suitable for use as machine parts in the medical and food industries. 4. High temperature resistance, long-term use at 1600 ℃, short-term use at 1800 ℃. 5. Alumina rods have electrical insulation properties and can be used as insulating components for electronic experiments.
    Send Email More
  • ▪ Alumina precision parts made by 99.3%-99.7% high purity alumina ▪ Alumina precision parts have excellent mechanical strength, electrical insulation, and corrosion resistance ▪ Alumina precision parts max working temperature is 1800C ▪ The quality can pass the SGS and DIN43724/DIN43725/DIN40680 ▪ Alumina precision parts can accept the custom shape and size without MOQ
    Send Email More
  • 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.
    Send Email More
  • 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.
    Send Email More
  • 1. Alumina Conical Crucible high temperature resistance,long-term use at 1600 ℃, short-term use at 1800 ℃. 2. Alumina Conical Crucible high thermal shock resistance. 3. Alumina Conical Crucible low thermal expansion coefficient. 4. Alumina Conical Crucible high chemical resistance to most acids and alkalis. 5. Alumina Conical Crucible high mechanical strength and excellent wear resistance.
    Send Email More
  • 1. High Hardness: Alumina pipes are extremely hard, ranking 9 on the Mohs scale. This high hardness makes them highly resistant to abrasion, which is essential in applications involving high wear and tear. 2. Excellent Thermal Stability: With a melting point exceeding 1800°C, alumina pipes can withstand extreme temperatures without deformation or loss of structural integrity. This makes them suitable for high-temperature applications, including furnace linings and thermocouple protection tubes. 3. Corrosion Resistance:Alumina pipes is chemically inert and resists corrosion from acids, alkalis, and other harsh chemicals. This property is particularly beneficial in chemical processing industries where pipes are exposed to corrosive substances. 4. Electrical Insulation:Alumina pipes are excellent electrical insulators, which is why they are commonly used in electrical and electronic applications, such as insulators in high-voltage systems.
    Send Email More