4J49, also referred to as Ni47CrB, NS-1, Н47ХВ (Russian designation), or NS49, is a high-strength, precision nickel alloy wire. It features a unique chemical composition of nickel, chromium, and boron, offering excellent mechanical properties, corrosion resistance, and stability across a broad temperature range. This alloy is widely used in aerospace, electronics, and other high-precision applications where reliability and performance are critical.
Properties of 4J49, Ni47CrB, NS-1, Н47ХВ, NS49
| Property |
Value/Specification |
| Chemical Composition |
Ni: ~47%, Cr: ~5%, B: ~1%, Fe: Balance |
| Density |
~8.5 g/cm³ |
| Tensile Strength |
~750 MPa |
| Thermal Expansion Coefficient |
~9.5 × 10 /°C (20-300°C range) |
| Electrical Resistivity |
~0.55 µΩ·m |
| Corrosion Resistance |
Excellent in high-temperature and corrosive environments |
| Operating Temperature Range |
-200°C to +600°C |
| Magnetic Permeability |
Low |
| Available Forms |
Wire, strip, sheet, rod |
| Applications |
Aerospace, electronics, chemical processing |
Key Features:
-
Corrosion and Oxidation Resistance:
- Boron and chromium additions ensure superior resistance to oxidation and corrosive environments, making it ideal for aggressive industrial conditions.
-
Thermal and Mechanical Stability:
- The alloy remains stable and retains its mechanical strength across a broad temperature range, including cryogenic and high-heat conditions.
-
High Strength and Durability:
- 4J49 offers excellent tensile strength, making it suitable for applications requiring structural reliability under stress.
-
Non-Magnetic Behavior:
- Low magnetic permeability ensures it minimizes electromagnetic interference, making it suitable for electronic components.
-
Versatility in Fabrication:
- This alloy can be manufactured into various forms, including wires, strips, rods, and sheets, to cater to diverse industrial needs.
Applications:
-
Aerospace Industry:
- Components like heat shields, turbine blades, and structural parts where high temperature and stress resistance are essential.
-
Electronics:
- Used in precision electronic components such as connectors, leads, and electromagnetic shielding systems.
-
Chemical Processing Equipment:
- Ideal for manufacturing tanks, reactors, and heat exchangers exposed to corrosive and oxidative environments.
-
Energy Sector:
- Suitable for energy generation systems, including gas turbines and heat exchangers, where strength and thermal stability are critical.
-
Automotive Industry:
- Applied in high-performance sensors, exhaust systems, and other engine components.
Advantages:
-
Enhanced Durability:
- Long lifespan and consistent performance in harsh operating conditions.
-
Thermal Efficiency:
- High resistance to temperature variations ensures reliability under thermal stress.
-
Corrosion Resistance:
- Suitable for exposure to chemically aggressive and high-temperature environments.
-
Precision Manufacturing:
- Tight tolerances and versatile forms meet demanding industrial standards.
-
Environmentally Stable:
- Reliable in cryogenic and high-heat environments without compromising structural integrity.
Conclusion:
The 4J49 (Ni47CrB, NS-1, Н47ХВ, NS49) precision nickel alloy wire is a versatile material offering high performance in demanding environments. Its combination of strength, corrosion resistance, and stability makes it a preferred choice for aerospace, electronics, chemical processing, and other precision-driven industries. With its exceptional properties and reliable performance, it ensures optimal results in high-stakes applications.
Shandong Titanium Nickel Special Steel Co., Ltd., registered funds (one thousand yuan for 10,000 yuan), the company is mainly committed to high -tech enterprises that are integrated with special alloy materials, specializing in the research and sales of special alloys such as nickel -based and iron -based. Products include corrosion-resistant alloys, superalloys, precision alloys, Hastelloy, Monel, INCONEL, INCOLOY, copper-nickel alloys, titanium and titanium alloys, zirconium and zirconium alloys, nickel and nickel-based alloys, nickel-cobalt-based heat-resistant alloys , Hafnium alloy, etc., more than 60 kinds of alloy materials such as special stainless steel. On the basis of stabilizing the quality of the original products, according to the market demand, it solves the quality problems existing in the traditional metallurgical process, and ensures the low miscellaneous and low deflection of the alloy material products, which has won an excellent reputation in the industry.
What is a Precision Alloy Nickel Alloy?
A Precision Alloy Nickel Alloy is a specialized group of nickel-based alloys designed to perform exceptionally well in applications that require high precision and dimensional stability. These alloys are often used in electronics, aerospace, and instrumentation where accuracy, resistance to temperature changes, and mechanical strength are critical.
2. What are the primary features of Precision Alloy Nickel Alloys?
Precision Alloy Nickel Alloys are known for the following key features:
- Low and Stable Thermal Expansion: They have controlled and predictable thermal expansion, making them ideal for use in environments where dimensional stability is essential.
- High Strength: These alloys possess high tensile and yield strength, offering resistance to deformation and failure under stress.
- Magnetic Properties: Many precision nickel alloys offer excellent magnetic permeability, which is crucial in the manufacture of magnetic devices and components.
- Corrosion Resistance: They are resistant to corrosion, oxidation, and wear, ensuring longevity in harsh conditions.
- Weldability: These alloys are typically easy to weld and form into complex shapes without losing their properties.
3. What are common applications of Precision Alloy Nickel Alloys?
Precision Alloy Nickel Alloys are used in:
- Electronics: Connectors, switches, relays, and sensors.
- Aerospace: Components in turbines, engines, and high-precision mechanical parts.
- Automotive: Parts that require resistance to extreme temperatures and mechanical stress.
- Instrumentation: Thermocouples, strain gauges, and precision measuring instruments.
- Magnetic Devices: Transformers, magnetic sensors, and inductors.
4. What are the differences between Precision Alloy Nickel Alloys and other Nickel Alloys?
The main difference lies in the specific application and performance:
- Precision Alloys: Designed specifically for applications requiring high precision, stability, and uniformity in temperature and mechanical stress conditions.
- Standard Nickel Alloys: While nickel alloys generally offer good strength and corrosion resistance, precision alloys are tailored for applications where dimensional accuracy and material properties must remain consistent under extreme conditions.
5. What are some examples of Precision Alloy Nickel Alloys?
Some of the well-known precision alloy nickel alloys include:
- Invar (36% Nickel): Known for its low thermal expansion, used in precision instruments.
- Kovar (29% Nickel): A nickel-iron alloy used in electronic and sealing applications.
- 1J06 (1J6): A precision alloy with excellent thermal stability and low thermal expansion used in electronics and precision instruments.
6. What industries use Precision Alloy Nickel Alloys?
Industries that commonly use precision alloy nickel alloys include:
- Electronics and Telecommunications: For components that need stability and durability under varying temperatures and electrical loads.
- Aerospace and Defense: For parts exposed to extreme temperature changes, mechanical stress, and corrosion.
- Automotive: Especially in high-performance vehicles and systems like sensors and exhaust components.
- Medical Equipment: In instruments and devices that require high precision and long-term reliability.
7. What is the significance of low thermal expansion in Precision Alloy Nickel Alloys?
Low thermal expansion means that the material's dimensions remain stable even when exposed to temperature changes. This is crucial in high-precision applications such as measuring instruments, optical devices, and aerospace components, where even minute dimensional changes can lead to performance degradation.
8. How is Precision Alloy Nickel Alloy different from other types of alloys in terms of strength and durability?
Precision alloys, particularly those made from nickel, tend to have high tensile strength and excellent resistance to deformation under mechanical stress. These alloys are engineered to maintain their shape and structural integrity over a wider range of temperatures and environmental conditions, compared to other materials like carbon steel or standard stainless steel.
9. Are Precision Alloy Nickel Alloys magnetic?
Yes, many precision alloy nickel alloys, such as Kovar (29% Nickel), are designed to maintain stable magnetic properties. This makes them ideal for applications in transformers, magnetic sensors, and electronic devices that require controlled magnetic permeability.
10. How are Precision Alloy Nickel Alloys manufactured?
These alloys are typically produced using advanced metallurgical processes such as:
- Vacuum Induction Melting (VIM) or Vacuum Arc Remelting (VAR) for refining material purity.
- Casting and Hot or Cold Rolling to form sheets, strips, or wires.
- Precision machining techniques to create intricate components with tight tolerances.
- Heat Treatment to enhance mechanical properties such as strength, toughness, and dimensional stability.
11. Can Precision Alloy Nickel Alloys be welded and processed easily?
Yes, most precision alloy nickel alloys have good weldability and can be processed into complex shapes, making them suitable for high-precision manufacturing. However, the exact processing techniques may vary depending on the alloy composition and specific application requirements.
12. What is the price range for Precision Alloy Nickel Alloys?
The price of precision alloy nickel alloys can vary depending on the alloy grade, size, and supplier. Generally, they are more expensive than standard nickel alloys due to their specific formulation and high-performance properties. Prices typically range from $20 to $100 per kilogram or more, depending on the material's purity and market conditions.
13. How do I choose the right Precision Alloy Nickel Alloy for my application?
When selecting a precision alloy, consider the following factors:
- Thermal expansion requirements (low expansion or stable behavior under temperature fluctuations).
- Mechanical strength needed for your application (tensile strength, hardness, elongation).
- Magnetic properties (whether your application involves magnetic fields).
- Corrosion resistance for exposure to harsh environments.
- Workability (whether the alloy needs to be welded, machined, or formed).
14. What are the typical sizes and forms available for Precision Alloy Nickel Alloys?
Precision alloy nickel alloys are available in various forms, including:
- Sheets and plates for use in manufacturing and construction.
- Wire and strips for electronics and fine machinery.
- Rods and bars for precision machining.
- Foils for use in thin applications such as sensors or coatings.
15. How can I contact you for more information?
You can contact us through the following methods:
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