Description de produit
Ultra-Wear-Resistant Tungsten Carbide Cylinder with Silicon Nitride Shaft Assembly
Product Overview
The high-performance assembly combining a tungsten carbide cylinder with a silicon nitride shaft is specifically engineered for extreme operating conditions. This combination significantly outperforms traditional metal materials in wear resistance, corrosion resistance, and high-temperature stability, extending service life by 3 to 5 times while dramatically reducing maintenance frequency and costs.
Tungsten Carbide Manufacturing Process
We employ advanced powder metallurgy techniques to manufacture tungsten carbide cylinders:
1. Material formulation: High-purity tungsten carbide powder is precisely mixed with cobalt binder in specific ratios
2. Forming process: Isostatic pressing technology ensures uniform material density with forming accuracy of ±0.01mm
3. Sintering: Vacuum sintering at 1400-1600℃ creates a dense microstructure
4. Precision machining: Diamond grinding tools achieve surface roughness below Ra0.05μm
5. Quality inspection: Multiple testing procedures including ultrasonic flaw detection and hardness testing
Core Technical Advantages
• Material properties: Tungsten carbide hardness exceeds HRA 90, while silicon nitride provides self-lubrication with friction coefficient as low as 0.1
• Precision manufacturing: Mirror-polished cylinder interior (surface roughness Ra≤0.05μm), shaft machining tolerance controlled within ±0.001mm
• Customization: Available in diameters from 10-500mm with various surface coating options Key Benefits Summary
• Extended service life: 5 times more durable than traditional stainless steel components
• Energy efficiency: Reduces friction losses by 60%
• Maintenance-free design: Corrosion-resistant materials require no additional lubrication
• Easy installation: Standardized interface design compliant with ISO/DIN specifications
Technical Parameter Comparison
|
Characteristic
|
Our Product
|
Stainless Steel
|
Engineering Ceramic
|
|
Hardness (HRA)
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≥90
|
75-85
|
88-92
|
|
Max. Temp. (°C)
|
1000
|
600
|
1400
|
|
Corrosion Resistance
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Fully inert
|
500 hours
|
Fully inert
|
|
Friction Coefficient
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0.1
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0.3-0.5
|
0.08
|
|
Cost Performance
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Excellent
|
Average
|
Good
|
Industry Application Examples
Oil Industry: Extended replacement cycle from 3 months to 2 years in oilfield plunger pumps
Food Processing: FDA-certified for acidic food filling production lines
New Energy Manufacturing: Solved shaft wear issues in lithium battery electrode rolling mills, maintaining 1μm precision
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