High Energy Neodymium Rectangular Custom Magnet, Stepped Rare Earth Sintered Neodymium Stepped Magnets, Custom made podium shape special irregular magnets, High Coercive Strength Custom Permanent Magnets Product Name: High Energy Neodymium Rectangular Custom Magnet Magnet ID: Neodymium-CMN42-02 + Highest Energy of All Permanent Magnets + Moderate Temperature Stability + High Coercive Strength + Moderate Mechanical […]
Strong Strength Rectangular N42 NdFeB Magnet, Rare Earth Sintered Neodymium Block Magnets N42 , Sintering Ndfeb Magnet, Larger High Coercive Strength Rectangular Shaped Magnets
Product Name: Strong Strength Rectangular N42 NdFeB Magnet
Magnet ID: Block-36x12x5-N42-Ni
+ Highest Energy of All Permanent Magnets
+ Moderate Temperature Stability
+ High Coercive Strength
+ Moderate Mechanical Strength
Type: Permanent Composite: Neodymium Magnet
Application: Moto Magnet Shape: Block / Rectangular Coating: Ni coating
Product name: neodymium Rectangular magnets
We could produce the neodymium Rectangular magnets according to your request,shapes,size,coating……
The neodymium Rectangular magnets are widely used in Magnetic Separator, relay and switch !The following items are the relative products of the NdFeB Block Magnets,you can quickly find the NdFeB Block Magnets through the list.
Custom Special Magnets Assemblies
Custom Magnets & Assemblies
N42 Sintered Rare Earth Neodymium Magnet Features
Standard and Custom Magnet sizes
Technical Application Assistance from Prototype to Production
Precision Cutting, Grinding, Fabrication and Assembly to your specifications.
Expertise in applying over 100 million magnets
High holding strength allows holding of heavier parts with greater stability.
For over 20 years HSMAG Magnetics has assisted industry professionals in application design, and engineering Custom Magnet Solutions. Magnets from simple to complex, prototype to production, with thousands of varied customer requirements met.
Modern permanent magnets are far removed from the traditional horseshoe magnet. Today, magnets are available in a variety of shapes to suit many applications, and the introduction of magnetic alloys and magnetic-oxide based ceramics has made the simple iron magnets the exception rather than the rule.
In a non-magnetic material, these elementary magnetic dipoles are statistically oriented in all directions, resulting at macroscopic scale in no magnetic field. However in a magnetic material, dipoles are locally oriented in areas called domains. These domains are in natural state statistically oriented through the material, this also produces no resultant magnetic moment. In presence of an outside magnetic field the number of domains aligned with this field increases : there is a magnetic moment resulting in the material which is said polarized. With the increase of the intensity of the outside field the number of aligned domains increases until there is no more not aligned domain : the material is saturated, that is magnetized. N42H Segment NdFeB Arc Magnets