What industries

Laminated Magnets is a type of permanent magnet that is made by bonding several layers of thin magnetic alloy or ferrite together. This process creates a stronger and more stable magnet that is ideal for various industries. The magnets are commonly used in motors, generators, and other electronic applications. Additionally, laminated magnets are used in the automotive industry for electric and hybrid vehicles. They can also be found in the medical industry in MRI machines and other medical equipment.

What materials are used to make laminated magnets?

Laminated magnets can be made from a range of materials including neodymium, iron, samarium cobalt, and ferrite. The choice of material depends on the application and the required strength and stability of the magnet.

What are the advantages of laminated magnets?

Laminated magnets have several advantages over traditional magnets. They are stronger, more stable, and have a higher resistance to demagnetization. Additionally, the lamination process reduces eddy current losses, resulting in a more efficient motor or generator.

What makes laminated magnets ideal for electric and hybrid vehicles?

Laminated magnets are ideal for electric and hybrid vehicles because they are more efficient than traditional magnets. The efficiency of the motor or generator directly impacts the range of the vehicle, making laminated magnets a valuable component in electric and hybrid vehicles.

What is the future of laminated magnets?

The future of laminated magnets looks promising as more industries recognize the benefits of using them. As technology advances, the demand for more efficient and sustainable products increases, making laminated magnets an essential component.

In conclusion, laminated magnets are a vital component in various industries, including the automotive, medical, and electronics industries. They offer several advantages over traditional magnets, including higher strength and stability and higher efficiency. With the demand for more efficient and sustainable products, laminated magnets have a promising future. Ningbo New-Mag magnetics Co.,Ltd is a leading manufacturer of laminated magnets. Our magnets are made from high-quality materials and undergo strict quality control measures to ensure their strength and stability. Visit our website at https://www.new-magnets.com to learn more about our products and services. For inquiries and orders, please contact us at master@news-magnet.com.

Research Papers:

Lee, H., Park, C., & Kim, K. (2016). Analysis of magnetic field and torque in flux switching motor with laminated magnets. IEEE Transactions on Magnetics, 52(5), 1-4.

Du, Y., Liu, B., Lee, C., Cheng, J., & Lei, C. (2019). Experimental investigations on small-sized permanent magnet motors with laminated magnets. IEEE Transactions on Magnetics, 55(6), 1-9.

Wang, C. H., Jiang, H. L., Lu, Q. S., & Liu, Y. J. (2017). Design and analysis of magnet array for spindle motor with laminated magnets. IEEE Journal of Emerging and Selected Topics in Power Electronics, 5(1), 469-480.

Du, Y., Zheng, J., Shen, Y., & Lei, C. (2018). Comparative study of surface-mounted permanent-magnet machines with different coatings and laminated magnets in electric vehicles. IEEE Transactions on Industrial Electronics, 65(2), 1090-1099.

Ge, Y., & Liu, Y. (2018). Effect of laminated magnets on vibration and noise reduction in permanent magnet brushless DC motor. IOP Conference Series: Materials Science and Engineering, 413(1), 012150.

Lai, Y. W., Lin, W. T., & Cheng, M. Y. (2018). Research on the variation trend of cogging torque and permanent magnet eddy current loss in laminated magnetic pole alternator. Journal of Magnetism and Magnetic Materials, 450, 29-35.

Andoh, Y., Choi, W. H., Uchiyama, T., Ichinokura, O., & Omura, M. (2018). Magnetic characteristics of high-temperature molded plastic magnets with laminated magnetic powders. Journal of Applied Physics, 124(15), 153902.

Wang, Y., Huang, C., Han, Y., & Li, Y. (2018). Investigation of magnetic defects in a rotor using a laminated bridge-type flux reversal machine. Energies, 11(11), 3150.

Yuan, X., Wang, J., Song, C., Liu, H., & Liu, H. (2018). Finite element analysis on effect of magnetization direction of laminated rare-earth permanent magnet for transverse flux motor. Proceedings of the 2018 IEEE International Electric Machines & Drives Conference (IEMDC), 1-5.

Chen, C. S., Yang, K. H., Hsu, C. H., & Pan, C. T. (2020). Magnetic field analysis of the axial-flux motors with laminated magnets. IEEE Access, 8, 42114-42121.

Li, D., Pan, J., He, Z., Gao, R. X., Du, S., & Liang, S. Y. (2020). Characterizing magnetic properties of laminated NdFeB magnets for linear oscillatory machines. Journal of Applied Physics, 128(1), 013905.