ADCERAX® Black Zirconia Ceramic Seal Ring is engineered for demanding industrial systems where durability, wear resistance, and corrosion protection are essential. Manufactured from yttria‑stabilized zirconia, it delivers exceptional mechanical strength and thermal stability under high‑load and high‑temperature conditions. This material provides long‑term reliability in pumps, valves, and electrical equipment exposed to abrasive or chemical media. ADCERAX supplies these rings to support maintenance, repair, and new equipment production across global engineering industries.
Features of Black Zirconia Ceramic Seal Ring
- Flexural Strength: ≥ 900 MPa
This level of strength prevents cracking or deformation in rotating equipment under heavy load cycles. It outperforms standard alumina rings used in similar environments.
- Fracture Toughness: 6–9 MPa·m¹/²
High fracture toughness allows the seal ring to resist chipping and brittle failure during mechanical shock or vibration.
- Hardness: 1100–1250 HV
With this surface hardness, the ring provides excellent wear resistance during contact with metal parts or slurry flows.
- Operating Temperature: Up to 1000 °C
The ring remains dimensionally stable in high-temperature reactors, furnaces, or heated pump systems.
- Thermal Expansion: 9–10×10⁻⁶/K
This makes it compatible with steel housings and shafts, minimizing thermal mismatch during equipment startup and shutdown.
- Corrosion Resistance: Stable in acid, alkali, and saltwater
Tested in environments with pH<2 and pH>12, it showed no surface degradation after 96h immersion.
- Surface Roughness: ≤ 0.2–0.4 µm Ra
Such fine polishing reduces fluid turbulence and enhances sealing effectiveness in pump end-face applications.
- Concentricity Deviation: ≤ 0.03 mm
High concentricity ensures uniform contact in rotating seal assemblies, minimizing localized wear.
- Dimensional Stability: Long-term drift < 0.01 mm per 1000 h
Dimensional changes under thermal cycles remain negligible, supporting extended use in service-critical assemblies.
Technical Properties of Black Zirconia Ceramic Seal Ring
Black Zirconia Ceramic Seal Ring is a dense, high-performance engineering component designed for extreme environments involving mechanical load, heat, chemical exposure, and precision sealing. Its performance characteristics meet the core material and functional requirements for industrial-grade ceramic components.
| Property |
Specification |
| Material |
Yttria-Stabilized Zirconia (Y-TZP) |
| Color |
Black |
| Density |
≥ 6.0 g/cm³ |
| Flexural Strength |
≥ 900 MPa |
| Fracture Toughness |
6–9 MPa·m¹/² |
| Vickers Hardness |
1100–1250 HV |
| Thermal Conductivity |
< 3 W/m·K @ 20 °C |
| Coefficient of Expansion |
9–10×10⁻⁶ /K |
| Max Operating Temperature |
Up to 1000 °C |
| Dielectric Strength |
> 10 kV/mm |
| Volume Resistivity |
> 10¹² Ω·cm |
| Acid Resistance (pH<2) |
No degradation after 96h |
| Alkali Resistance (pH>12) |
No degradation after 96h |
| Surface Finish Capability |
Ra ≤ 0.2–0.4 µm |
| Magnetic Permeability |
Non-magnetic |
Specifications of Black Zirconia Ceramic Seal Ring
|
Black Zirconia Ceramic Seal Ring |
|
Model |
Size |
|
AT-HG-H1001 |
Customized |
Packaging of Black Zirconia Ceramic Seal Ring
Black Zirconia Ceramic Seal Ring is securely packed using multi-layer protection starting from inner cartons to export-grade wooden crates. Each shipment is reinforced with shock-absorbing materials and labeled with handling instructions. This ensures safe delivery during long-distance transport and warehouse stacking.
Solving Industry-Specific Sealing and Insulation Needs with ADCERAX® Black Zirconia Ceramic Seal Ring
ADCERAX® Black Zirconia Ceramic Seal Ring plays a critical role in sealing, insulation, and mechanical isolation across complex industrial systems. Its adoption solves application-specific failures caused by chemical erosion, dimensional drift under heat, and premature wear at contact interfaces. Below are three precisely targeted use cases where this component directly addresses persistent engineering pain points.
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Black Zirconia Ceramic Seal Ring in High-Pressure Chemical Metering Pumps
✅Key Advantages
1. Chemical Inertness in Aggressive Media
Black Zirconia Ceramic Seal Ring remains structurally stable in environments containing H₂SO₄ (pH < 2) and NaOH (pH > 12) for over 96 hours of immersion with no measurable surface degradation. This resistance prevents corrosion-induced leakage in continuous metering systems.
2. Dimensional Stability Under Thermal Load
The ring maintains less than 0.01 mm dimensional drift after 1000 h at 150 °C, ensuring reliable sealing pressure even during temperature cycling in pump heads.
3. Extended Operating Life in Continuous Dosing
Field data from chemical dosing pumps show that ADCERAX® rings achieve 9–10 months of uninterrupted operation compared with 2 months for polymer-based seals, reducing total maintenance frequency by 80 %.
✅ ️Problem Solved
A German water treatment equipment manufacturer reported recurring leakage every eight weeks using PTFE seals when pumping sulfuric acid at 60 °C. The corrosion and swelling led to dosing fluctuations and unplanned maintenance shutdowns costing approximately €1,200 per event. After switching to ADCERAX® Black Zirconia Ceramic Seal Rings, seal replacement intervals extended to nine months with zero dimensional creep. The company reduced maintenance costs by over 70 % and achieved consistent flow calibration within ±1 %.
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Black Zirconia Ceramic Seal Ring in Optical Sensor Isolation Systems
✅Key Advantages
1. Light-Absorbing Non-Reflective Surface
The black zirconia matrix achieves < 1 % reflectivity in the visible spectrum, preventing back-scatter that distorts photodiode readings in optical assemblies.
2. Thermal Compatibility with Sensor Housing
With a thermal expansion coefficient of 9 × 10⁻⁶/K, the ring matches aluminum and stainless housing tolerances, avoiding focus drift across –40 °C to 150 °C thermal cycles.
3. Electrical and Magnetic Neutrality
Volume resistivity exceeds 10¹² Ω·cm, ensuring zero current leakage and eliminating electromagnetic interference in high‑precision photonics.
✅ ️Problem Solved
A Japanese laser inspection system experienced 0.5 µm image drift after 200 thermal cycles due to reflective metal spacers. This instability degraded sensor calibration accuracy by 18 %. Replacing these spacers with ADCERAX® Black Zirconia Ceramic Seal Rings eliminated optical feedback and thermal expansion mismatch. After testing, alignment remained stable within ±0.05 µm, improving signal-to-noise ratio by 22 % and maintaining focus precision through prolonged operation.
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Black Zirconia Ceramic Seal Ring in Abrasive Slurry Transport Valves
✅Key Advantages
1. Extreme Wear Resistance Under Particle Flow
Tested hardness of 1250 HV enables the ring to resist abrasive contact with silica and alumina particles at flow rates exceeding 2 m/s, maintaining sealing geometry over extended use.
2. Fracture Strength for Dynamic Valve Operation
With a flexural strength of ≥ 900 MPa, the ring withstands rapid gate valve actuation without edge chipping or micro‑cracking, improving operational reliability in slurry lines.
3. Low Surface Erosion Rate
Laboratory abrasion tests show material loss below 0.03 mm³/h compared to 0.15 mm³/h for alumina, resulting in a 5× longer service lifespan in mineral slurry circuits.
✅ ️Problem Solved
A Canadian mineral processing plant faced valve seal erosion every 45 days while conveying kaolin slurry through steel-lined pipes. The wear caused sealing loss and frequent unscheduled shutdowns. After implementing ADCERAX® Black Zirconia Ceramic Seal Rings, erosion rate dropped by 78 %, and valve replacement intervals extended to five months. Maintenance downtime decreased from 12 times to 3 times per year, saving approximately 400 production hours annually and maintaining system pressure stability under full abrasive flow.
User Instructions for Black Zirconia Ceramic Seal Ring
To maximize the performance and lifespan of the Black Zirconia Ceramic Seal Ring, proper handling, installation, and operational alignment are critical. This guide outlines essential precautions and usage recommendations based on real-world conditions in engineering applications.
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Handling and Storage Precautions
1. Avoid mechanical shock or drop impact.
Although the Black Zirconia Ceramic Seal Ring has high hardness, its ceramic nature makes it brittle under concentrated impact. Always handle with padded gloves and store in foam-lined trays.
2. Keep components in dry, dust-free environments.
Contaminants can interfere with sealing performance or sensor insulation functions. Use sealed containers in humidity-controlled storage areas.
3. Do not stack without support isolation.
When storing multiple units, insert protective spacers between rings to prevent edge contact or surface abrasion.
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Installation Recommendations
1. Use axial loading fixtures during press-fit assembly.
Uneven force may cause micro-cracks that compromise structural integrity. Apply consistent axial pressure using calibrated presses or torque tools.
2. Align flat surfaces parallel to sealing interfaces.
Improper angle during installation can lead to premature wear or incomplete sealing. Use jigs or alignment tools for high-precision placement.
3. Inspect mating surfaces for flatness and cleanliness.
Any debris or irregularity can cause local stress concentrations. Clean interfaces with alcohol swabs prior to ring installation.
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Operating Environment Guidelines
1. Avoid rapid thermal cycling beyond ±300°C/min.
Even with high thermal stability, thermal shock from extreme gradients can initiate cracking. Allow controlled ramp-up and cool-down.
2. Limit exposure to hydrofluoric acid or molten alkalis.
While resistant to most acids and bases, Black Zirconia Ceramic Seal Ring may degrade in certain high-concentration agents. Use alternative shielding if required.
3. Monitor pH, pressure, and flow rate in dynamic systems.
Unexpected surges may push mechanical loads beyond design intent. Set up real-time process monitoring for critical installations.
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Maintenance and Replacement Advice
1. Inspect after every 800–1000 operating hours in aggressive media.
Regular visual and dimensional checks help identify early signs of wear. Maintain a preventive maintenance log.
2. Replace at the first sign of edge chipping or surface pitting.
Small defects can propagate under cyclic loads, risking functional failure. Keep spare rings in inventory for fast swap-out.
3. Record operational anomalies and failure modes.
Tracking issues helps optimize future ring selection and application design. Submit failed samples for technical review if needed.
