No2Hipernik/E32a/1J50(Ni50)/Hyperm50 Bar Ideal ForChemical and Petrochemical Industry
The No2Hipernik/E32a/1J50(Ni50)/Hyperm50 Bar is a high-performance nickel-iron alloy bar known for its excellent magnetic permeability, low coercivity, and high saturation induction. With approximately 50% nickel content, it is widely used in applications requiring high magnetic shielding, precision instruments, transformers, and sensors.
This material offers superior stability, corrosion resistance, and machinability, making it ideal for electronic components and aerospace applications. Its high permeability and low core loss contribute to energy-efficient magnetic circuits, enhancing performance in electromagnetic applications.
Manufactured to strict quality standards, No2Hipernik/E32a/1J50(Ni50)/Hyperm50 bars provide consistent mechanical and magnetic properties, ensuring reliability in critical industries such as defense, telecommunications, and power electronics.
Trade Code
| Chemical Composition Wt.% | % | Ni | Cu | Fe | C | Mn | Si | P | S |
| Min | 49 | | | | 0.3 | 0.15 | | |
| Max | 50.5 | 0.2 | Bal | 0.03 | 0.6 | 0.3 | 0.02 | 0.2 |
| Physical Constants | Density(g/cm³) | 8.20 |
| Melting Range(℃) | 1450-1500°C |
| Minimum mechanical properties of alloy at room temperature | Typical mechanical properties | Tensile strength Rm N/mm² | Yield strength RP 0.2 N/mm² | Elongation A5 % |
| Solution treatment | 1345 | 1275 | 1 |
The designations No2Hipernik, E32a, 1J50 (Ni50), and Hyperm50 correspond to various trade names and standards for a soft magnetic iron-cobalt alloy renowned for its exceptional magnetic properties. This alloy is widely utilized in applications requiring high magnetic saturation and permeability. Below are the key features and characteristics of this material:
Key Features:
- High Magnetic Saturation: Supports the development of compact and efficient magnetic components.
- Low Core Loss: Enhances performance in AC applications by minimizing energy dissipation.
- Mechanical Strength: Provides durability and reliability under mechanical stress.
- Thermal Stability: Maintains magnetic properties across a wide temperature range, including elevated temperatures.
Applications:
- Motors and Generators: Utilized to achieve maximum torque density and efficiency, contributing to reduced size and weight of the machinery.
- Transformers and Magnetic Amplifiers: Employed in cores to enhance performance due to its high permeability and low core loss.
- Actuators and Magnetic Bearings: Applied in devices requiring precise magnetic response and high force output.
- Aerospace Components: Used in applications demanding high performance under extreme conditions.
This iron-cobalt-vanadium alloy's unique combination of magnetic and mechanical properties makes it a preferred material in advanced engineering applications where performance and efficiency are critical.
