Advanced Ceramic Manufacturer

Great Ceramic provides customers with customized services for a variety of advanced ceramic products, including alumina, zirconia, silicon nitride, aluminum nitride, boron nitride, machinable ceramics and other advanced ceramic materials.

Precision alumina ceramics

Alumina ceramic (AL2O3) is one of the most common advanced ceramic materials, which has excellent performance in electrical insulation, high chemical resistance, good wear resistance, and low thermal expansion. Therefore, it is widely used in various industries.

Precision alumina ceramics

The chemical formula of zirconia ceramics is ZrO2. Zirconia is available in several grades, the most common being yttria partially stabilized zirconia (Y-PSZ) and magnesia partially stabilized zirconia (Mg-PSZ).

Precision alumina ceramics

Silicon carbide ceramics(SiC) have excellent mechanical properties at room temperature, such as high bending strength, excellent oxidation resistance, good corrosion resistance, high wear resistance and low coefficient of friction, etc.

Precision alumina ceramics

Silicon nitride ceramics (Si3N4) have extremely high hardness and chemical inertness, and excellent thermal shock resistance. It is often used to manufacture mechanical components such as bearings, gas turbine blades, mechanical seal rings, and permanent molds.

Precision alumina ceramics

Aluminum nitride ceramics (AlN) have high thermal conductivity, low expansion coefficient, high strength, high temperature resistance, and high resistivity. They are large-scale integrated circuit heat dissipation substrates and packaging materials.

Precision alumina ceramics

Boron nitride (BN) ceramics generally refer to hexagonal boron nitride, which in its solid form is often referred to as “white graphite”. It has high thermal conductivity and good thermal shock resistance and can be easily machined to almost any shape tolerance.

Precision alumina ceramics

Machinable ceramics are fluorophlogopite glass-ceramic with synthetic mica as the main crystal phase, which has high mechanical strength, excellent dielectric properties and thermal properties, and good chemical stability. The most prominent feature of machinable ceramics is good machinability.

Precision alumina ceramics

In Great Ceramic, we have all kinds of advanced ceramic processing and molding equipment, which can create cost-effective ceramic product solutions for customers.

Advanced Ceramics Examples

Advanced ceramics have many different chemical compositions and organizational structures, with different properties and functions, such as high hardness, corrosion resistance, and electrical insulation. It is widely used in machinery, electronics, chemical industry, smelting, energy, medicine, laser, nuclear reaction, etc.

What are the advantages of Great Ceramic?

10

10 years working experience

3000

3000 kinds of product production experience

0.002

Highest precision 0.002mm

24

24 hours quick reply

1

1 minimum order

5

Fastest 5 days delivery

Engineering Ceramics Supplier

For many years, Great Ceramic has focused on the processing and sales of advanced ceramics, providing a variety of engineering ceramic products such as alumina, aluminum nitride, boron nitride, silicon nitride, zirconia, and machinable ceramics.
Great Ceramic is a senior ceramic expert with rich experience and a variety of engineering ceramic solutions. It has provided hundreds of companies with more than 3,000 advanced ceramic products.

Learn About Advanced Ceramic Materials

Advanced ceramic materials have different mechanical, thermal and electrical properties due to their chemical composition and molecular structure. Therefore, the processing and use of engineering ceramics must have a high degree of professional knowledge. Below, we have prepared some information about advanced ceramics for you!

The special character of ceramic materials gives rise to many applications in materials engineering, electrical engineering, chemical engineering and mechanical engineering. As ceramics are heat resistant, they can be used for many tasks for which materials like metal and polymers are unsuitable. Ceramic materials are used in a wide range of industries, including mining, aerospace, medicine, refinery, food and chemical industries, packaging science, electronics, industrial and transmission electricity, and guided lightwave transmission.

Quoted from Wikipedia