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研磨用アルミナ

Manufactured by a controlled high temperature calcining of aluminium hydroxide, calcined alumina provides extraordinary toughness, heat stability and chemistry – making it a prime ingredient for high quality ceramics, fire resistant coatings, abrasive media, and high performance technology.

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What Is Calcined Alumina?

Calcined alumina is an aluminium oxide (Al₂O₃), which is made by heating aluminium hydroxides, which are usually gibbsite obtained by Bayer method, to an elevated temperature ranging from about 1000 to 1300 ° C. in rotary or shaft kilns. The heat treatment is used to remove the chemically bonded water and transform it into a stable alpha aluminum oxide crystalline phase.

The performance of the baked aluminum oxide is directly determined by calcining temperature, retention time, and feed properties – enabling manufacturers to produce grades ranging from reactive transition aluminas at lower calcining temperatures to fully converted alpha alumina at higher temperatures. Aluminum aluminum, which is a thermodynamically stable phase generated when fully calcined, has a Mohs hardness of 9, making it one of the most difficult commercial oxide materials and the basis for its performance across abrasive, ceramic, and refractory applications.

Calcined Aluminum Oxide is one of the world’s largest industrial minerals, which is used as the main feedstock for technological ceramics, refractory products, grinding agents, and other special industries. The combination of hardness, cleanliness, heat tolerance, and chemical inertia has made it an essential component in many fields in which it is essential to perform in the face of mechanical, high temperature, and chemical attack.

Key Advantages of Calcined Alumina

  • Exceptional Hardness for Abrasive and Wear-Resistant Applications: Calcining alpha aluminum oxide, having a Mohs hardness of 9, offers the desired cutting efficiency, surface finish, and abrasion resistance for adhesive and coated abrasive products, precise grinding wheels, grinding compounds, and surface preparing media for metal, electronic, and high grade materials.
  • High Thermal Stability for Refractory and High-Temperature Applications: Baked aluminum oxide keeps its structure intact and chemically stable at more than 1,600 degrees Celsius – a prime ingredient for refractory products such as furnitures, furnitures, ovens, ovens, and high temperature ceramic parts for the production of steel, concrete, glass, and petroleum-based products.
  • Controlled Chemical Purity for Technical Ceramic Manufacturing: High purity calcined aluminium grades having an Al₂O₃ content of more than 99.5 percent offer a desired chemical uniformity in a technological ceramic body, an electronics base, a spark-plug insulator, and an advanced ceramic element in which an impurity concentration has a direct influence on the electric, mechanical, and heat properties of the product.
  • Versatile Particle Size Distribution for Diverse Processing Requirements: Available in a broad range of intermediate grain dimensions and dimensions - from coarse grade for refractory aggregate to sub-micron grade for high quality ceramic - fired aluminum oxide is suitable for the particular grain size required by stamping, casting, extruding, and hot spraying.
  • Chemical Inertness in Aggressive Process Environments: Calcined Due to its ability to resist acids, alkalis and liquid metal contact, it has become the best choice of ceramic and fire resistant material in an industry with a strong chemical impact - such as aluminium smelting, chemical reactor liner, and corrosion fluid handling applications.

業界が直面する課題

Inconsistent crystal phase composition affecting end-product performance

Partial or variable transformation into a stable alpha aluminum oxide phase can result in a material that is difficult to predict in terms of hardness, firing behaviour, and mechanical performance – which is a direct threat to the quality and integrity of final ceramic and abrasive products.

Particle size distribution variability disrupting forming and sintering processes

Uneven mean grain diameter and dimension distribution in baked aluminum oxide feed results in a variety of density changes, sintering defects, and dimension discrepancies between compressed, cast, and extruded technological ceramic parts.

Chemical impurity levels exceeding technical ceramic and electronic substrate tolerances

Higher concentrations of silicon dioxide, ferric oxide, sodium, and other impurities in the lower pure calcined aluminum are detrimental to the performance of the electric insulating performance, the flame colour, and the mechanical strength of the advanced ceramic and electronics components.

製品概要

アルミナ

AP-α-ELE/P100

アルミナ

AP-α-ELE/P300

アルミナ

AP-α-ELE/P500

アルミナ

AP-AM-MED/P300

アルミナ

AP-α-MED/P500

Specific Use Scenarios — Calcined Alumina

Abrasive Products and Surface Preparation Media

Calcined alpha aluminum oxide is a main feedstock for adhesive grinding rollers, coated abrasive strips and disks, polishing membranes, as well as a wide range of applications in metalwork, precision engineering and surface treatment. Its Mohs Hardness of 9 offers the desired cutting performance and abrasion resistance for the milling of black, hard, and high alloy – ensuring uniform material removal and surface finish in high volume industry.

Technical Ceramic Components and Advanced Ceramic Manufacturing

Highly pure calcined aluminum oxide is used as the main formation material of technological ceramic parts, such as electronics, spark-plug insulation, ceramic seal, wear resistant lining, and medical implant parts. Controlled grain size distribution, phase purity, and low-impurity levels of technical grade baked aluminum oxide have a direct impact on the sintering behaviour, burning density, mechanical strength, and electric performance of finished ceramic components in automobile, electronic, and industry.

Refractory Products and High-Temperature Lining Systems

Calcined aluminum oxide is the main ingredient of high aluminum oxide refractory castables, bricks, and single liner for the production of steel, concrete, glass-melting vessels, petrochemical reactors, and nonferrous metals. Because of its high melting point, anti-slaking properties, and heat shock properties, it is the best choice of aggregate and substrate for a fire resistant system that is running continuously at more than 1,400 degrees Celsius in a chemically aggressive high-temperature process environment.

Polishing Compounds and Precision Surface Finishing

The refined and ultra-fine baked aluminum oxide is made into grinding slurry, grinding agent, and precise finishing agent for the manufacture of semiconductor chips, the polishing of optics, the coating of the hard disc, and the decoration of the metal. The controlled grain diameter, the narrow diameter distribution and the chemical purity of the polished aluminum oxide decide the non-scratch surface finish and the uniformity of the material removal.

Ceramic Grinding Media for Mill and Dispersion Applications

Calcining aluminum oxide is made into spheres or cylinders, which are applied to the polishing and dispersing of paint, mineral, pottery, and chemical powders by ball-making machines. High density, high hardness aluminum oxide grinding media provides excellent grinding efficiency and a low pollution level than silicon and zirconium oxide substitutes – making it the first choice of media for applications that require high purity and grinding properties.

Thermal Spray Coatings for Wear and Corrosion Protection

Sintered aluminum oxide is the raw material for the application of the plasma jet and the fire-jet paint technology, which provides a tough, abrasion-resistant ceramic paint on the metallic parts which are exposed to wear, corrosion, and corrosion. Aluminum Oxide Heat Spray Paint is used on Pump Components, Fabric Machine Parts, Printers, Printers, and Industry Machines – Prolonging the Useful Life of Components in Wear and Chemical Attack Situations When Bare Metallic Surfaces Will Be Rapidly Degraded.

Catalyst Support and Specialty Chemical Applications

The transsition-phase calcined aluminas, which are made at mid-calcining, have enough surface and pore space to serve as the carrier of the catalyst and the active aluminum oxide precursor in the special chemistry production process. The intermediate calcining grades bridge the difference in performance between full active aluminum oxide and full calcining aluminum oxide – serving applications that need to combine surface reactivity, heat stability, and controlled phase composition that cannot be achieved with only full activation or full calcining.

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Mohs 9 Hardness Delivering Superior Abrasive and Wear Performance

Full transformed alpha aluminum has a Mohs hardness of 9 – which offers the desired cutting efficiency, smoothness, and abrasion resistance for polishing wheels, coated abrasives, polishing compounds, and abrasion-resistant ceramic parts across metalwork, electronic, and advanced manufacturing applications.

High-Temperature Stability Supporting Demanding Refractory Applications

Baked aluminum oxide keeps its structure intact and chemically stable at more than 1,600 degrees Celsius – a prime ingredient for refractory castables, kiln furniture, and boiler liner in the production of steel, concrete, glass, and petroleum-based industries.

Controlled Chemical Purity Meeting Technical Ceramic Specifications

High purity calcining aluminium grades with an Al₂O₃ content of more than 99.5 percent provide a desired chemical uniformity for a technological ceramic body, an electronics base, or an advanced ceramic element - in which the degree of impurity is a direct determinant of the properties of the electric insulation, the mechanical strength and the combustion of the product.

すべての活性炭のカテゴリーを検索

Calcined alumina is one grade within a broader alumina product range engineered for diverse industrial requirements. Ranging from active aluminum oxide used in drying and fluoride-removing applications to special grade catalysts and advanced ceramic molding, we offer a wide range of industry aluminum products. Check out the full catalogue of aluminum oxide products for comparison of grades, purity and physics – and identify appropriate aluminum oxide solutions for your particular technology and use.
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すべての産業向けソリューションを検索

Calcined aluminum oxide is one part of a wider range of industrial chemical materials. Throughout sophisticated ceramics, refractory, grinding, and high temperature processes, efficient results are usually achieved by combining baked aluminum oxide, active carbon, and titanium dioxide. Explore our industrial solutions and find out how they work together to solve the complexity of production, process and performance problems in many industries.
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