The ZrO2 Crucible by Semicera offers outstanding performance tailored for high-precision applications in the semiconductor industry. Made from high-purity Zirconia (ZrO2), this crucible is engineered for maximum durability and resistance to extreme temperatures, making it a reliable solution for critical processing environments. With its robust composition, this ZrO2 crucible exhibits excellent wear resistance and superior thermal stability, essential for demanding applications.
Advanced Ceramic Composition for Optimal Performance The Semicera ZrO2 Crucible is part of an advanced line of high-performance ceramic products. Beyond Zirconia, we provide expertise in materials such as Silicon Carbide (SiC), Alumina (Al2O3), Silicon Nitride (Si3N4), and Aluminum Nitride (AIN). These composite ceramics are specifically designed for use in semiconductor components including axle sleeves, bushings, wafer carriers, mechanical seals, and wafer boats. The advanced properties of these materials make them suitable for complex applications requiring extreme resilience and precision.
Semiconductor Applications and Enhanced Durability In the semiconductor industry, the Semicera ZrO2 Crucible meets the demands of high-purity processing environments. Its high wear resistance ensures that it withstands repeated cycles, maintaining its structural integrity under high thermal loads. Applications for the ZrO2 crucible in the production of wafers and high-precision components illustrate its vital role in processes that require absolute purity and reliability.
Designed to meet stringent industry standards, Semicera’s ZrO2 Crucible is the ideal choice for companies seeking performance, endurance, and quality.
The main characteristics of zirconia ceramic parts:
1. Excellent wear resistance, much higher 276 times than stainless steel
2. Higher density than most technical ceramics, over than 6 g/cm3
3. High hardness, over 1300 MPa for Vicker
4. Can withstand higher temperatures up to 2400°
5. Low thermal conductivity, less than 3 W/m.k at room temperature
6. Similar coefficient of thermal expansion as stainless steel
7. Exceptional fracture toughness reaches up to 8 Mpa m1/2
8. Chemical inertness, aging resistance, and not rust forever
9. Resistance to molten metals due to an extraordinary melting point.
Zirconia (ZrO2) I main uses
Mold and mould tools (various molds, precision positioning fixture, insulation fixture); Mill parts (classifier, air flow mill, bead mill); Industrial tool (industrial cutter, slitter machine, flat press roll); Optical connector components (sealing ring, sleeve, V-groove fixture); Special spring (coil spring, plate spring); Consumer products (small insulated screwdriver, ceramic knife, slicer).
