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उत्पाद विवरण:
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| जिंक शुद्धता: | 99.995% | व्यास सीमा: | 0.8 मिमी - 3.17 मिमी |
|---|---|---|---|
| घनत्व: | 7.14 ग्राम/सेमी³ | गलनांक: | 419.5 डिग्री सेल्सियस |
| व्यास सहनशीलता: | ±0.02मिमी - ±0.05मिमी | सतह की स्थिति: | चिकना, कम ऑक्साइड वाला |
Zinc Purity: 99.995% ultra-low impurity grade
Manufacturing: precision cold drawn process
Diameter Range: 0.8mm – 3.17mm customizable
Surface: ultra-smooth, oxide-controlled finish
Application: wind power towers, bridges, offshore steel structures
Function: long-term sacrificial corrosion protection
Wind turbines and large bridge structures operate in highly aggressive environments including:
Continuous wind erosion and humidity exposure
Salt spray in coastal regions
Temperature cycling and condensation effects
High purity zinc wire provides sacrificial electrochemical protection, meaning it corrodes instead of the steel substrate. This significantly extends the service life of critical infrastructure where maintenance is expensive and operational downtime must be minimized.
In thermal and arc spray systems, zinc wire is melted into fine droplets that form a dense metallic coating, ensuring uniform protection across large steel surfaces.
| Item | Specification |
|---|---|
| Product Name | High Purity Zinc Wire |
| Zinc Purity | 99.995% |
| Manufacturing Process | Precision cold drawing |
| Diameter Range | 0.8mm – 3.17mm |
| Surface Condition | Smooth, low-oxide, clean finish |
| Density | 7.14 g/cm³ |
| Melting Point | 419.5°C |
| Feeding System | Arc spray / thermal spray compatible |
| Application Fields | Wind power / bridges / steel structures |
| Packaging | Spool / coil / export-grade packing |
| Quality Control | SGS / BV / third-party inspection |
| Customization | Available (purity, spool weight, diameter) |
Wind turbine towers are exposed to extreme atmospheric conditions. Corrosion typically starts from micro-cracks in protective coatings and expands due to moisture infiltration.
99.995% zinc wire provides:
Stable and uniform corrosion-resistant coating
Long-term sacrificial protection in coastal wind farms
Reduced maintenance cycles for turbine towers
Strong adhesion under thermal spray systems
This makes it a preferred material in renewable energy infrastructure protection systems.
Bridges are continuously exposed to:
Road de-icing salts
Humidity and rain cycles
Industrial pollution gases
When applied through arc spraying, zinc wire creates a protective metallic layer that prevents steel oxidation and structural degradation.
Benefits include:
Extended bridge lifespan
Reduced repainting and maintenance costs
Improved resistance to chloride-induced corrosion
Strong bonding to steel surfaces
| Item | 99.9% Zinc Wire | 99.995% Zinc Wire |
|---|---|---|
| Impurity Level | Higher trace elements | Ultra-low impurities |
| Coating Stability | Standard | Highly stable and uniform |
| Arc Behavior | Slight variation | Stable arc performance |
| Long-Term Protection | Moderate | Extended durability |
| Application Level | General industry | Critical infrastructure |
Higher purity significantly improves coating density and corrosion resistance in long-term exposed environments.
| Item | 99.99% Zinc Wire | 99.995% Zinc Wire |
|---|---|---|
| Surface Cleanliness | Good | Superior ultra-clean surface |
| Spray Efficiency | High | Higher and more consistent |
| Coating Uniformity | Stable | More uniform distribution |
| Industrial Use | Heavy industry | Wind power / bridges / offshore |
| Cost Efficiency | Slightly lower | Higher performance value |
99.995% grade is preferred where long service life and minimal maintenance are critical.
Surface condition directly determines spray behavior and coating quality. Poor surface conditions lead to:
Arc instability during spraying
Increased spitting and coating defects
Reduced adhesion strength
Irregular melting performance
Precision drawn smooth zinc wire ensures:
Stable arc formation
Uniform coating thickness
High deposition efficiency
Reduced equipment wear
Yes, it is widely used in offshore wind turbine structures where saltwater exposure is severe.
It provides:
Strong resistance to chloride corrosion
Long-term protection under continuous humidity
Reduced maintenance frequency in offshore environments
Stable coating performance in marine wind conditions
To ensure quality stability, zinc wire is packaged in:
Moisture-proof sealed spools
Heavy-duty export cartons
Anti-oxidation protective wrapping
This ensures:
No surface oxidation during transport
Stable feeding in automated systems
Long shelf-life in humid environments
99.995% high purity zinc wire is a critical corrosion protection material for wind power and bridge infrastructure. Its ultra-low impurity level, precision drawing process, and stable spray performance make it ideal for long-term exposed steel structures requiring maximum durability and minimal maintenance.
Because higher purity ensures more stable coating performance and longer corrosion protection life.
Yes, it is widely used for wind turbine tower corrosion protection systems.
It provides smooth surface quality, ensuring stable feeding and uniform spraying.
Yes, it is commonly used in bridge steel structure protection systems.
Arc spray uses electrical arc melting, while thermal spray uses external heat sources for coating formation.
Yes, higher purity reduces impurities that can weaken coating density and durability.
व्यक्ति से संपर्क करें: Mr. xie
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