Product Overview
The cylindrical N4EH permanent magnet steel alloy shell Halbach array component is an advanced magnetic solution designed for applications that require strong magnetic fields, focused magnetic fields with minimal leakage. The component adopts an extra thick cylindrical design to provide enhanced magnetic performance and structural integrity.
Material and Structure
This Halbach array is made of high-performance N4EH neodymium, ensuring excellent magnetic and temperature stability. The assembly is enclosed in a durable steel alloy housing, providing strong support and protection. The use of a steel alloy base not only enhances mechanical stability, but also facilitates effective alignment of the magnetic field.
Specifications & Customization
The cylindrical Halbach array assembly is available in a variety of custom sizes to meet specific application needs. The extra-thick design ensures superior magnetic field strength, making it ideal for demanding applications. Coating options include nickel, zinc, and epoxy resins, which provide protection against corrosion and wear.
Applications
This cylindrical Halbach array assembly is ideal for a range of high-tech applications, including motors, sensors, medical devices, and magnetic levitation systems. The focused magnetic field and reduced leakage make it highly effective in improving the performance and efficiency of these devices.
Quality & Certifications
Our cylindrical N4EH permanent magnet steel alloy shell Halbach array assembly is manufactured to the highest standards, ensuring quality and reliability. It meets all major certifications, including ROHS, REACH, and ISO9001, guaranteeing that it meets international environmental and safety standards.
Benefits
This Halbach array assembly features an extra-thick cylindrical design that enhances magnetic field strength and stability. The steel alloy housing provides strong support and protection, ensuring long life and reliability in a variety of applications. The combination of high-performance materials and precision engineering makes this component an excellent choice for advanced magnetic applications.
