Features:

1. Refers to the process of magnetizing a material uniformly across its entire thickness, ensuring consistent magnetic properties from one surface to the opposite. It is achieved through specialized electromagnetic fields or advanced magnetization processes that penetrate deeply into the material, creating a uniform magnetic domain structure.

Key applications:

1. Holding and mounting systems, Magnetic assemblies, Rectangular pot magnets, Magnetic poster hangers, Concrete insert magnets, Actuators and linear motion, Sensors, Magnetic separation, Consumer electronics, Electric motors and generators, Magnetic storage devices, Energy harvesting and conversion, etc

Advantage:

1. Enhanced Performance	Uniform magnetization across the thickness leads to improved magnetic performance, including higher magnetic induction and reduced magnetic losses. This is particularly beneficial in applications requiring high magnetic efficiency, such as electric motors and transformers.
   Improved Reliability	Consistent magnetic properties throughout the material thickness enhance the reliability and longevity of magnetic components, reducing the risk of premature failure due to localized magnetic variations.
   Versatility	Suitable for a wide range of materials, including soft magnetic alloys, hard magnetic materials, and certain non-ferromagnetic materials when combined with specific coating or doping techniques.
   Advanced Design Flexibility	Enables the creation of complex magnetic structures and patterns, facilitating innovative designs in magnetic devices and systems.