N35
Magnet Arc Magnet with Nickel Coating for Permanent Wind Generator Applications
Discover the high-performance N35 Magnet Arc Magnet, specifically engineered for advanced permanent wind generator systems. This nickel-coated arc magnet delivers exceptional magnetic strength and corrosion resistance, making it ideal for demanding industrial and renewable energy environments. Designed with precision for optimal flux distribution, this arc-shaped magnet ensures efficient energy conversion in modern wind turbines and small-scale generators.
The N35 grade represents a balance of cost-effectiveness and performance, offering strong magnetic properties while maintaining stability under varying temperature conditions. The nickel coating not only enhances durability against moisture and oxidation but also improves surface finish for easier handling during assembly. Whether used in horizontal-axis or vertical-axis wind turbines, this arc magnet supports consistent torque generation and minimal energy loss—key factors in maximizing output efficiency.
Key features include: precise curvature matching for seamless integration into rotor assemblies, excellent thermal stability up to 80°C, and compatibility with both permanent magnet synchronous generators (PMSG) and brushless DC motor configurations. The magnet’s design aligns with global standards for electromagnetic performance, ensuring reliable operation in outdoor installations across diverse climates—from coastal regions to arid zones.
Engineered for use in permanent wind generator systems, this arc magnet provides superior magnetic flux concentration compared to traditional
Block Magnets. Its curved geometry allows for uniform air-gap flux density, reducing vibration and noise while increasing power output per unit volume. Additionally, the nickel-plated surface resists environmental degradation, extending service life without compromising magnetic integrity—a critical advantage in remote or hard-to-access locations where maintenance is costly or impractical.
Common applications span utility-scale wind farms, off-grid micro-hydro systems, and DIY wind turbine projects for sustainable energy generation. It's particularly suited for engineers designing compact, high-efficiency generators where space constraints demand optimized magnetic circuitry. Also widely adopted in educational settings and prototyping labs due to its predictable behavior and ease of customization for different rotational speeds and load profiles.
