Custom 8-Pole Axial (Face-Magnetized) Ring Magnets

Precision-engineered 8-pole ring magnets with neodymium material for maximum strength

Surface magnetization creates 8 poles around the circumference for desired applications

Customizable dimensions and grade options from N35 to N52 to match your specifications

Ideal for high-performance motors, sensors, and magnetic coupling devices

Available with various surface treatments like nickel, zinc or superiorย  PTFE, Parylene

Free shipping on orders over $500!

  • FREE samples available upon request
Supported Payment Methods

Description

We supply precision 8-Pole Axial Neodymium Rings (Face Multi-Pole).

The entire top face of standard ring magnets is North and the bottom is South.
But these specialized magnets feature 8 alternating poles (4N / 4S) distributed radially across the flat surface.

This “Surface Magnetization” configuration creates a dense, shallow magnetic circuit.
These loops are directly across the face of the ring.

This geometry is the industry standard for Rotary Encoders, Speed Sensors, and high-efficiency Magnetic Couplings.
Their the magnetic field must interact with a sensor or steel plate parallel to the magnet’s face.

The Engineering Logic: Why “Surface” Magnetization?

Explain the physics. Why do they want this weird pattern?

1. Sensor Resolution (4 Pulses per Rev):

The Application:
– Rotary speed detection.

The Function:
– As the ring rotates, a Hall Effect sensor placed near the surface detects 4 distinct North-South cycles per revolution.

The Benefit:
– This provides 4x the data resolution of a standard 2-pole magnet.
– Such feature allows for precise speed and position control in robotics and motor feedback systems.

2. Superior Holding on Thin Steel:

The Application:
– Magnetic latches on thin sheet metal.

The Physics:
– Standard magnets shoot their field deep into space.
– Multi-pole magnets loop their field tightly between the N and S sectors on the face.

The Benefit:
– This concentrates 100% of the magnetic energy right at the surface.
– And it provides exceptionally strong holding force on thin steel sheets (where standard magnets would “bleed” through and lose grip).

Manufacturing & Tooling

Pulse Magnetization:
– Creating this pattern on Sintered Neodymium requires a specialized High-Voltage Magnetizing Fixture (Coil).

Standard Sizes:
– We often have existing fixtures for common ODs (e.g., 20mm, 30mm), saving you tooling costs.

Custom Sizes:
– For unique dimensions, a one-time fixture fee may apply to build the custom coil.

Applications

Rotary Encoders: Volume knobs, robot joints, and control dials.
Brushless DC (BLDC) Motors: Axial flux pancake motors.
Magnetic Couplings: Driving a mixer or pump through a flat plastic wall.
Smart Accessories: Tablet case attachments (the tight field doesn’t damage internal electronics).

Ordering Guide: Critical Data

To quote this item, we need to know:

1). Dimensions: OD x ID x Thickness.
2). Sensor Match: Are you using this with a specific Hall Sensor chip? (Knowing the “Operating Gap” helps us verify the strength).
3). Reference Mark: Do you need a physical mark (laser dot or notch) to indicate the “Zero Position” (Start of Pole 1)?
4). Back-Iron: Will this be glued to a steel shaft? (This boosts the performance).

Additional information

Dimensions 1.49 × 1.49 × 0.2 cm
Material

Sintered NdFeB (High Strength) or Bonded NdFeB (Complex shapes, lower cost).

Pole Configuration

8 Poles (Axial / Surface).

Dimensions

Custom OD, ID, and Thickness.

Waveform

Sine Wave (for linear Hall sensors) or Square Wave (for latching sensors).

Surface Field

We can optimize for high surface Gauss (>2500 Gauss on Sintered N52).

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