Chemical And Thermal Resistant Ceramic For High-Temperature Applications Exceptional Stability
Chemical And Thermal Resistant Ceramic For High-Temperature Applications Exceptional Stability
Silicon oxide ceramic (SiO₂ ceramic) is a high-performance ceramic material with exceptional stability, manufactured using high-purity silicon dioxide (SiO₂≥99.7%) through specialized sintering processes. This product demonstrates unparalleled chemical and thermal stability in extreme environments, making it an ideal choice for demanding industrial applications.
Primary Applications
-
Semiconductor manufacturing: Corrosion-resistant components for wafer processing equipment
-
Optical industry: Substrate material for high-precision optical lenses
-
Chemical processing: Corrosion-resistant elements for strong acid/alkali environments
-
High-temperature applications: Components for heat treatment equipment below 1600°C
-
Electronics: High-frequency insulation components
Stability Advantages
✓ Superior chemical inertness: Resistant to all inorganic acids (except HF) and organic solvents
✓ Excellent thermal stability: CTE only 0.5×10⁻⁶/°C (20-1000°C)
✓ Low dielectric loss: Dielectric constant 3.8 at 1MHz, loss tangent 0.0002
✓ Thermal shock resistance: Withstands rapid quenching from 1000°C to room temperature
✓ Long-term stability: Service life exceeding 10 years in harsh environments
Technical Specifications
| Parameter | Specification |
|---|---|
| Purity | SiO₂≥99.7% |
| Density | 2.2-2.3g/cm³ |
| CTE | 0.5×10⁻⁶/°C (20-1000°C) |
| Max Service Temp | 1600°C (1700°C short-term) |
| Flexural Strength | 80-120MPa |
| Dielectric Constant | 3.8 (1MHz) |
| Volume Resistivity | >10¹⁶Ω·cm (25°C) |
Manufacturing Process
-
Material preparation: Purification of quartz sand to >99.9% purity
-
Forming: Isostatic pressing or slip casting
-
High-temperature sintering: 1350-1450°C special atmosphere sintering
-
Precision machining: Ultra-precision polishing (Ra≤0.01μm)
-
Quality inspection: XRD phase analysis, chemical stability testing
Usage Guidelines
⚠️ Temperature control: Recommended ≤1600°C
⚠️ Chemical exposure: Avoid HF and hot concentrated alkalis
⚠️ Mechanical protection: Prevent impact (brittle material)
⚠️ Maintenance: Clean with neutral detergents
After-Sales Service
-
Technical support: Free material stability analysis reports
-
Customization: Special dimensions and shapes available
-
Emergency response: 48-hour technical consultation
FAQ
Q: Stability in humid environments?
A: Excellent hydrolysis resistance for long-term use in high humidity.
Q: Stability advantages vs alumina ceramic?
A: Lower CTE and better chemical stability, ideal for precision applications.
Q: Maximum tolerable temperature shock?
A: Withstands instantaneous ΔT of 800°C.
Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.