Dailymag Motor Magnets
Motor magnets can be found in many types of motors, actuators, and generators. These magnets are typically 2X stronger compared to ceramic or ferrite permanent magnets. Motor magnets can be built to run at synchronous speeds with a stable voltage and frequency supply.
Dailymag offers an extensive range of high-quality motor magnets to meet a variety of applications. However, if you require specific motor magnets, please contact us. We offer skilled engineering expertise, extensive knowledge, and cutting-edge technology to meet your exact requirements.
- Material: Neodymium
- Thickness: 5 mm
- Shape: Segment (Arc)
- Magnet Grade: N35
- Thickness: 5 mm
- Shape: Segment (Arc)
- Magnet Grade: N52
- Applications: Servo Motors
- Magnet Grade: N45
- Material: Neodymium
- Dimensional Tolerance: +-0.1 mm
- Plating / Coating: Chrome
- Magnet Grade: N38
- Material: Ferrite
- Colour: Black
- Tolerance: +/-0.1 mm
- Color: Black
- Power: >1500 gauss
- Material: Ferrite
- Shape: Round
- Material: Bonded Neodymium
- Magnet Grade: N35
- Applications: Generators / Motors / Servo Motors
- Dimensional Tolerance: +-0.05 mm
- Thickness: 8 mm
- Shape: Ring
- Magnet Grade: Y 30BH
- Applications: Motors & Generators / Sweeper Magnets
- Thickness: 5 mm
- Shape: Disc
- Magnet Grade: Y 30BH
- Applications: Toys / Magnetic Tools / Gifts & Packaging
- Magnet Grade: N45
- Applications: Motors / Servo Motors
- Dimensional Tolerance: +-0.1 mm
- Plating / Coating: Black Nickel
The Use of Motor Magnets
Motors are found in almost every major business and can be found where there is mechanical movement. They are most likely found in electric motors such as those found in washing machines, microwaves, refrigerators, ceiling fans, hair dryers, electric razors, and so on.
Motors generate rotational motion by utilizing the energy of magnetism. The magnet cause movements, and attract or repel forces.
Motor Magnets Features
Magnetic technology for the motor industry allows for greater downsizing, efficiency, and reliability. Our customers want to attain high performance in products like wire bonding machines and missile guidance systems. Dailymag provides motor magnets for motors and actuators with features like:
- High force to mass ratio
- Capability to resist harsh environments
- High-speed moving coil designs
Benefits of Permanent Magnet Motors
- Permanent magnets generate a continuous and stable magnetic field.
- Such magnets do not require any energy.
- When compared to normal synchronous motors, permanent magnets produce significantly more torque.
- They are lightweight and compact, requiring less installation space while still providing tremendous power.
- Permanent magnet motors outperform other motors in terms of performance and over a wide temperature range.
- Due to their oil-free and emission-free design, they are regarded as an environmentally responsible solution.
On the rotor of a synchronous machine, permanent magnets constructed of neodymium-boron-iron, samarium-cobalt, or ferrite can provide a magnetic field.
In some motors, these magnets are adhered to the surface of the rotor core, allowing the magnetic field to be directed radially across the air gap.
The concept of a motor powered solely by permanent magnets is so practical. A permanent magnet motor does not generate energy and is not a perpetual energy machine.
Because of their high magnetic strength, outstanding temperature tolerance, and consistent performance without oxidation protection, motor magnets are ideal for high-temperature motor applications.
Magnets are a key component in electric motors. They must be formed of a coil of wire that can spin and is surrounded by strong magnets in order to function. When an electric current is produced in the coil, it creates a magnetic field that opposes the magnetic field emitted by the powerful magnets.
Magnets have the same attraction and repulsion rules. For example, if you put the north and south poles of two distinct bar magnets together, an unseen force will push them apart. Motors use the same notion, but they are designed in such a way that the repulsion is used to regulate an energy source.
This repulsion causes the coil to spin or rotate quickly. The coil is connected to an axle, which allows the wheels to rotate. That is the most basic electric motor model, however, it can be more sophisticated.
