Magnets
OneMonroe offers a wide range of high-quality magnets designed to meet the demanding needs of various industrial and commercial applications. Our selection includes permanent magnets, electromagnets, and flexible magnetic solutions, each engineered for superior performance and durability. Whether you require strong holding force, temperature resistance, or custom configurations, OneMonroe provides reliable magnetic solutions that ensure efficiency and precision in your operations.
Understanding the key attributes of magnets is essential for selecting the right solution for your application. Factors such as material composition, strength, coating, temperature tolerance, and mounting options all play a crucial role in performance and longevity. At OneMonroe, we focus on delivering magnets that not only meet industry standards but also exceed expectations in functionality and reliability. Explore our magnet attributes to find the perfect fit for your needs.
Magnets
- Alnico Magnets (Aluminum, Nickel, Cobalt): Alnico magnets are resistant to heat and have moderate magnetic strength. They are often used in applications like electric motors, sensors, and loudspeakers.
- BrMax (Maximum Energy Product): Measures the magnet’s maximum stored energy, indicating the strength of the magnetic field.
- Countersink: A conical recess that allows flat head screws to sit flush with the magnet’s surface.
- Ferrite Magnets (Ceramic Magnets): These magnets are made from a combination of iron oxide and other metals. They are inexpensive and resistant to corrosion but have lower magnetic strength. They are commonly found in household applications, such as refrigerator magnets and small motors.
- Flexible Magnets: These magnets are made from ferrite powder mixed with rubber or plastic. They are flexible, easy to cut, and often come in sheet or strip form. While they are not very strong, they are versatile and used in applications such as fridge magnets, advertising displays, and craft projects.
- Grade: The quality of the magnetic material (e.g., Neodymium magnets graded from N35 to N52). Higher grades indicate stronger magnetic fields.
- Holding Capacity: The force a magnet can hold, usually measured in pounds or kilograms. This determines how much weight the magnet can support.
- Holes: Drilled holes for mounting the magnet with screws, making installation easier.
- Length: The distance from one end of the magnet to the other, measured in millimeters or inches. Longer magnets typically have a larger surface area, increasing holding capacity.
- Neodymium Magnets (NdFeB): The strongest type of permanent magnet, known for its high magnetic field strength. They are brittle and can corrode, so they’re often coated. Applications include electronics, medical devices, and industrial machinery.
- Samarium Cobalt Magnets (SmCo): Known for their excellent heat resistance and corrosion resistance. They are often used in high temperature applications and harsh environments, such as aerospace and military equipment.
- Shape: Physical forms such as disc, block, ring, or cylinder. The shape affects the magnetic field direction and application.
- Thickness: The measurement of the magnet’s depth or height, which affects its magnetic field strength.
- Width: The distance across the magnet, influencing the magnetic field’s coverage and distribution.