Neodymium Cylindrical Magnets

About Neodymium Cylinder Magnets

Neodymium cylinder magnets generate a strong magnetic field and are among the most potent magnets available on the market. They exhibit high magnetisation and a coercivity that meets strict technical specifications, making them suitable for applications where strong magnetic properties are required.

They are used in a range of sectors, including manufacturing, the automotive industry, electronics and renewable energy generation. In these sectors, the magnets are typically integrated into magnetic sensors, motors, generators, magnetic separators, magnetic lifting devices and other high-performance systems.

The magnets are preferred because of their compact dimensions, high measured magnetic strength and versatility in engineering design. They must be handled with caution, as the strong attractive force may cause injury or damage if not managed in accordance with standard operating procedures.

Neodymium Cylinder Magnet Features:

High magnetic strength: Neodymium magnets are known for their measurable magnetic output. Our cylinder magnets offer a magnetic attraction that meets engineering design criteria, despite their small size.

Cylindrical form: The cylindrical shape confers a technical advantage. Given that the length exceeds the diameter, a defined magnetic range is produced along the axis, while maintaining a high level of magnetic force.

Durable construction: Manufactured from neodymium, iron and boron, these magnets are engineered for extended service. They show a quantifiable resistance to demagnetisation and are designed to perform consistently over prolonged use.

Variety of sizes: Our neodymium cylinder magnets are available in a range of dimensions. This allows selection of the most appropriate solution for a given project, whether a slender magnet for precision tasks or a larger magnet for applications requiring a higher force.

Versatility in applications: They are utilised in mechanical assemblies, robotic systems, artistic installations and educational demonstrations. This range facilitates direct application in multiple technical contexts.

Ease of integration: The cylindrical design permits straightforward incorporation into existing engineering systems. Whether used for alignment, securing components or motion control, the shape supports accurate installation.

Neodymium Cylinder Magnet Advantages:

Reliable performance: The magnets achieve a consistent magnetic force under standard conditions, ensuring that components function as specified in experimental and industrial designs.

Optimised space utilisation: The cylindrical form extends the measurable magnetic influence along the axis, thereby suiting applications that require directional magnetic attraction.

Measured design data: Engineers may utilise the quantified magnetic properties to develop alternative technical solutions. This data-driven approach supports the design of devices and experimental protocols at institutions such as Stanford Advanced Materials and SAM.

Cost-efficient solutions: The high magnetic output allows for the use of fewer magnets in a system. Consequently, material costs can be reduced without compromising the required performance.

Wide application scope: These magnets are employed in magnetic closures, mounting systems, levitation displays, scientific experiments and other technical applications, facilitating a broad spectrum of engineering and research projects.