Nickel Plated Steel (Coated): Properties and Key Applications
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Table Of Content
Table Of Content
Nickel Plated Steel (Coated) is a specialized steel grade that combines the inherent properties of steel with the protective benefits of a nickel coating. This steel is classified primarily as low-carbon mild steel or medium-carbon alloy steel, depending on its specific composition and intended application. The nickel plating process enhances the steel's resistance to corrosion, wear, and oxidation, making it suitable for a variety of demanding environments.
Comprehensive Overview
Nickel Plated Steel is characterized by its unique combination of mechanical strength and enhanced corrosion resistance due to the nickel coating. The primary alloying element in this steel grade is nickel, which typically constitutes around 5-15% of the coating, although the base steel may contain varying amounts of carbon, manganese, and silicon. The nickel coating significantly influences the steel's properties, providing a protective barrier that mitigates the effects of environmental exposure.
The most significant characteristics of Nickel Plated Steel include:
- Corrosion Resistance: The nickel layer provides excellent resistance to rust and corrosion, particularly in humid or saline environments.
- Wear Resistance: The coating enhances the wear resistance of the underlying steel, making it suitable for applications involving friction and abrasion.
- Aesthetic Appeal: The shiny, reflective surface of nickel plating is often desirable for aesthetic applications.
Advantages and Limitations
| Advantages | Limitations |
|---|---|
| Excellent corrosion resistance | Higher cost compared to uncoated steel |
| Enhanced wear resistance | Limited high-temperature performance |
| Improved aesthetic appearance | Potential for coating delamination if improperly applied |
| Good electrical conductivity | May require specific welding techniques |
Nickel Plated Steel holds a significant position in the market due to its versatile applications in automotive, aerospace, and electrical industries. Historically, nickel plating has been used since the early 20th century, evolving with advancements in plating technology to improve adhesion and durability.
Alternative Names, Standards, and Equivalents
| Standard Organization | Designation/Grade | Country/Region of Origin | Notes/Remarks |
|---|---|---|---|
| UNS | N02200 | USA | Closest equivalent to ASTM B162 |
| ASTM | B162 | USA | Nickel-coated steel specification |
| EN | 2.4066 | Europe | Minor compositional differences to be aware of |
| JIS | G3302 | Japan | Similar properties but different coating thickness standards |
The above table highlights various standards and equivalents for Nickel Plated Steel. It is important to note that while these grades may appear equivalent, differences in coating thickness, adhesion properties, and base steel composition can significantly affect performance in specific applications.
Key Properties
Chemical Composition
| Element (Symbol and Name) | Percentage Range (%) |
|---|---|
| C (Carbon) | 0.05 - 0.15 |
| Mn (Manganese) | 0.30 - 0.60 |
| Si (Silicon) | 0.10 - 0.40 |
| Ni (Nickel) | 5.0 - 15.0 (coating) |
The primary role of nickel in this steel grade is to enhance corrosion resistance and improve the overall toughness of the coating. Carbon contributes to the hardness and strength of the base steel, while manganese and silicon improve the steel's ductility and weldability.
Mechanical Properties
| Property | Condition/Temper | Test Temperature | Typical Value/Range (Metric) | Typical Value/Range (Imperial) | Reference Standard for Test Method |
|---|---|---|---|---|---|
| Tensile Strength | Annealed | Room Temp | 350 - 550 MPa | 50.8 - 79.8 ksi | ASTM E8 |
| Yield Strength (0.2% offset) | Annealed | Room Temp | 200 - 400 MPa | 29.0 - 58.0 ksi | ASTM E8 |
| Elongation | Annealed | Room Temp | 20 - 30% | 20 - 30% | ASTM E8 |
| Hardness (Rockwell B) | Annealed | Room Temp | 70 - 90 HRB | 70 - 90 HRB | ASTM E18 |
The combination of these mechanical properties makes Nickel Plated Steel suitable for applications requiring moderate strength and good ductility, such as fasteners and structural components. Its wear resistance also allows it to perform well under mechanical loading conditions.
Physical Properties
| Property | Condition/Temperature | Value (Metric) | Value (Imperial) |
|---|---|---|---|
| Density | Room Temp | 7.85 g/cm³ | 0.284 lb/in³ |
| Melting Point/Range | - | 1450 - 1520 °C | 2642 - 2768 °F |
| Thermal Conductivity | Room Temp | 16 W/m·K | 92 BTU·in/h·ft²·°F |
| Specific Heat Capacity | Room Temp | 0.46 kJ/kg·K | 0.11 BTU/lb·°F |
The density and melting point of Nickel Plated Steel indicate its suitability for high-temperature applications, while its thermal conductivity and specific heat capacity suggest effective heat dissipation in electrical applications.
Corrosion Resistance
| Corrosive Agent | Concentration (%) | Temperature (°C/°F) | Resistance Rating | Notes |
|---|---|---|---|---|
| Saltwater | 3.5 | 25/77 | Excellent | Risk of pitting |
| Sulfuric Acid | 10 | 25/77 | Fair | Susceptible to SCC |
| Chlorides | 1 | 25/77 | Good | Risk of localized corrosion |
Nickel Plated Steel exhibits excellent resistance to saltwater, making it ideal for marine applications. However, it can be susceptible to stress corrosion cracking (SCC) in acidic environments, particularly in the presence of chlorides. Compared to stainless steels, Nickel Plated Steel may offer lower resistance to certain corrosive agents, but its cost-effectiveness makes it a popular choice in less aggressive environments.
Heat Resistance
| Property/Limit | Temperature (°C) | Temperature (°F) | Remarks |
|---|---|---|---|
| Max Continuous Service Temp | 300 | 572 | Suitable for moderate temperatures |
| Max Intermittent Service Temp | 400 | 752 | Short-term exposure only |
| Scaling Temperature | 600 | 1112 | Risk of oxidation beyond this temp |
At elevated temperatures, Nickel Plated Steel maintains its structural integrity up to approximately 300 °C (572 °F). However, prolonged exposure to higher temperatures can lead to oxidation and degradation of the nickel coating.
Fabrication Properties
Weldability
| Welding Process | Recommended Filler Metal (AWS Classification) | Typical Shielding Gas/Flux | Notes |
|---|---|---|---|
| MIG | ER70S-6 | Argon/CO2 | Good fusion characteristics |
| TIG | ER308L | Argon | Clean welds, requires preheat |
Nickel Plated Steel can be welded using standard techniques, but care must be taken to avoid overheating, which can lead to coating degradation. Preheating may be necessary to prevent cracking.
Machinability
| Machining Parameter | Nickel Plated Steel | AISI 1212 | Notes/Tips |
|---|---|---|---|
| Relative Machinability Index | 70 | 100 | Moderate machinability |
| Typical Cutting Speed | 30 m/min | 50 m/min | Use sharp tools and coolant |
Machinability is moderate, and using appropriate cutting speeds and tooling can enhance performance.
Formability
Nickel Plated Steel exhibits good formability, allowing for cold and hot forming processes. However, care must be taken to avoid excessive work hardening, which can lead to cracking during bending operations.
Heat Treatment
| Treatment Process | Temperature Range (°C/°F) | Typical Soaking Time | Cooling Method | Primary Purpose / Expected Result |
|---|---|---|---|---|
| Annealing | 600 - 700 / 1112 - 1292 | 1 - 2 hours | Air | Softening, improving ductility |
| Quenching | 800 - 900 / 1472 - 1652 | 30 minutes | Oil | Hardening |
Heat treatment processes such as annealing can significantly alter the microstructure of Nickel Plated Steel, enhancing its ductility and toughness.
Typical Applications and End Uses
| Industry/Sector | Specific Application Example | Key Steel Properties Utilized in this Application | Reason for Selection |
|---|---|---|---|
| Automotive | Fasteners | High strength, corrosion resistance | Durability and safety |
| Aerospace | Structural components | Lightweight, high strength | Performance under stress |
| Electrical | Connectors | Good conductivity, corrosion resistance | Reliability in harsh environments |
Other applications include:
- Marine hardware
- Electrical enclosures
- Decorative items
Nickel Plated Steel is chosen for these applications due to its excellent balance of strength, corrosion resistance, and aesthetic appeal.
Important Considerations, Selection Criteria, and Further Insights
| Feature/Property | Nickel Plated Steel | AISI 304 Stainless Steel | Carbon Steel | Brief Pro/Con or Trade-off Note |
|---|---|---|---|---|
| Key Mechanical Property | Moderate strength | High strength | Variable | Nickel Plated Steel is cost-effective |
| Key Corrosion Aspect | Good | Excellent | Fair | Stainless offers superior corrosion resistance |
| Weldability | Moderate | Good | Good | Nickel Plated requires care during welding |
| Machinability | Moderate | Poor | Good | Nickel coating can affect machining |
| Formability | Good | Fair | Good | Nickel plating can limit forming |
| Approx. Relative Cost | Moderate | High | Low | Cost-effective for many applications |
| Typical Availability | Common | Common | Very Common | Availability varies by region |
When selecting Nickel Plated Steel, considerations include cost-effectiveness, availability, and specific performance requirements. Its unique combination of properties makes it suitable for a wide range of applications, particularly where corrosion resistance and aesthetic appeal are paramount.