Industrial Ceramic Parts

Steatite Ceramic Steatite is also known as high-frequency porcelain, it is made of mineral talc (3MgO.4SiOz-H2O) as the main raw material, adding appropriate amounts of clay, BaTio3 and other ingredients, and then mixing and grinding, molding and high temperature sintering. Its main crystalline phase is proto-optite, namely magnesium metasilicate (chemical formula:MgSiO3),which has low dielectric constant, small dielectric loss,high insulation strength,high volume resistivity

Ceramic Plunger Ceramic Plunger Description : Our ceramic plungers are made of high quality imported raw materials, cold isostatic pressing forming way , and assembled with stainless steel metal parts after high temperature sintering. As one of the main components of the plunger pump, the ceramic plunger is matched with the plunger sleeve. Ceramic Plunger is a shaft type with regular shape, accuracy dimension. Not only its shape and position accuracy are relatively high

ZrO2,Mullite—Cordierite,Silicon Carbide Pillar It is made of Yttria - stabilized calcium stabilized ZrO2 by high press formed and high temperature sintering. It has no pollution under high temperature and it is widely used in electronic ceramic sintering kiln. Mullite-Cordierite pillar has advantages such as good thermal shock resistance and long using life. It is widely used to sinter daily ceramic, art ceramic and so on. It is made of high pure silicon carbide. It has

Corundum——Mullite Pillar Pillar is made of Al2O3 ceramic and ZrO2 ceramic by high press formed and high temperature sintering. It has high temperature high strength and good chemical stability. It is widely used to sinter magnetic material, electronic ceramic kiln, used together with setter plate. Quality control:

Low Temperature Push Plate It is widely used in the sintering of daily-use ceramics, building ceramics, and craft ceramics under low-temperature conditions. Quality control:

Corundum Push Plate Widely applied in the sintering of industrial ceramics, electronic components, and other high-temperature, high-purity environments. Quality control:

Silicon Carbide Push Plate Widely used in the sintering of magnetic materials, daily ceramics, artistic ceramics, and refractory materials. Quality control:

Sagger For Sintering Powder Powder materials often contain a certain amount of moisture during sintering, which has a significant impact on the service life of the crucible. Therefore, such crucibles require high thermal shock stability while meeting the sintering requirements of the powder materials. After years of development, our company has mainly developed several major types of crucibles, which are widely used in high-purity alumina, rare earths, phosphors, colored

Sagger For Sintering Electronic Ceramics The purity of the crucible has a significant impact on the sintering of electronic ceramics. Therefore, the production of such crucibles requires extremely strict standards to ensure that the materials being sintered are not contaminated. The crucibles developed by our company have been widely used in the sintering of multilayer ceramic capacitors, varistors, and inductors. Quality Control:

Sagger For Sintering Magnetic Material Magnetic materials tend to react with the surface of the crucible during sintering, leading to adhesion to the crucible after sintering and resulting in reduced electrical performance. The crucibles for sintering various magnetic materials produced by our company, after reasonable material selection, high-pressure forming, and high-temperature sintering, can provide excellent isolation. Additionally, by applying various coating methods,

Sandwich Setter Plate The sandwich support plate is mainly made of multi-layer sandwich shed board made of high-purity mullite, corundum, zirconium oxide and silicon carbide. It has the characteristics of high load softening point, high stability, low pollution, good thermal shock stability, long life and large load capacity. Practical application: sintering process of Mn-Zn ferrite and electronic ceramic products. Quality control:

PYROC® High purity graphite powder & SiC powder Our high-purity graphite powder and SiC powder is a top-quality product with a purity level of up to 5ppm. We maintain strict control over the impurity content of the material, ensuring it meets the highest industry standards. Our product's high purity level and precise particle size distribution make it an ideal choice for customers in the semiconductor, electronic, and high-tech industries. Characteristic: Uniform pore

PYROC® PyC Coating & TaC Coating Our coating products are applied in semiconductor crystal growth and CVD epitaxial processes, ensuring an efficient and stable production process. According to process requirements, graphite components can also be coated with SiC, PyC, or TaC, significantly extending the service life of graphite materials and meeting the high standards required by users in the integrated circuit industry. This enables the production of high-quality, defect

PYROC® Rigid Graphite Felt ·High purity, with a purity level reaching

PYROC® Carbon Carbon Composite ▪ High purity, low volatility, purity

High purity graphite powder & SiC powder Our high-purity graphite powder and silicon carbide powder have a purity of up to 5ppm. We strictly control the impurity content of the materials to ensure they meet the highest industry standards. The high purity and precise particle size distribution of our products make them an ideal choice for customers in the semiconductor, electronics, and high-tech industries. Quality Control:

Porous Graphite The pore distribution is uniform, performance is stable, and overall performance is excellent; Purity can reach the 5 PPM level, meeting the material purity requirements of high-purity application fields; High strength and good machinability; Mainly used in high-moisture fields such as SiC semiconductor crystal growth. Quality control:

Induastrial Ceramic Substrate Ceramic substrates offer high heat dissipation, low thermal resistance, and a long lifespan. Alumina is the most commonly used ceramic substrate material due to its high strength and chemical stability, making it suitable for a wide range of manufacturing technologies and applications. Quality Control:

Industrial Ceramic Plate Alumina ceramic carriers are wafer carriers or plates made from alumina ceramic. Alumina ceramics are often used as wafer carriers in polishing processes due to their excellent resistance to high temperatures, wear, and corrosion. Quality control:

Industrial Ceramic Chuck In the semiconductor field, wafer thinning and dicing have become relatively mature after years of development, and wafer thinning equipment is also becoming increasingly sophisticated. Ceramic chucks are used as loading fixtures when processing wafers. The adsorption area of the ceramic chuck is made of microporous ceramic that is permeable to air and water, while the outer ring of the ceramic chuck is sealed with dense, non-permeable alumina ceramic