Specially customized motor magnets: spiral tile magnets

In our daily lives, square magnets, disc magnets, cylindrical magnets, and ring magnets are all familiar “old friends” to us. Whether it's stationery storage or electronic devices, they are easily found everywhere. However, within the magnet family, there are some “niche members”—non-standard shaped magnets, such as spiral tile magnets, which are rarely known to the general public.

Spiral tile magnets, also known as beveled tile magnets, are a type of irregular-shaped motor magnet. Due to their extremely complex manufacturing process, there are very few manufacturers in China capable of producing them. Our company has accumulated extensive technical expertise in this product category and has successfully customized spiral tile magnets of various specifications according to customers' specific requirements, fully meeting the application needs of diverse scenarios.

Compared to ordinary tile magnets, the most notable difference in spiral tile magnets is their precise inclined angle, which also makes the manufacturing process more intricate.

During production, our technical staff first use computer-aided design (CAD) software to create a three-dimensional model, accurately simulating the physical form and calculating key data, providing precise technical references for subsequent processing.

Following this, the product undergoes multiple precision processes such as cutting and polishing to achieve its final form.

In terms of raw material consumption, manufacturing a spiral tile magnet typically requires approximately four times the amount of raw materials. Significant scrap material loss, combined with the labor and time investment required for complex processes, results in relatively high production costs for spiral tile magnets.

Where are spiral tile magnets used?

Currently, spiral tile magnets are primarily applied in specialized motor and magnetic transmission industries.

As a specially customized motor magnet, it features a unique shape and design that enables precise matching with equipment, effectively enhancing motor performance. It is particularly suitable for high-end applications requiring customized magnetic field distribution. Additionally, it is made from high-performance materials such as neodymium iron boron or samarium cobalt, ensuring stability under high temperatures and harsh environmental conditions, thereby providing robust support for the long-term reliable operation of equipment.