Home
About
Products
Permanent Magnets
Neodymium Magnets
Neodymium magnets are the unsung heroes behind many of the technological advances and everyday conveniences we enjoy. Known for their incredible strength, these magnets play a crucial role in various industries, from electronics to renewable energy. In this blog, we’ll explore what makes neodymium magnets so special, how they are made, their wide range of applications, and tips for safe handling. What Are Neodymium Magnets? Neodymium magnets are a type of rare-earth magnet made from an alloy of neodymium (Nd), iron (Fe), and boron (B), typically referred to as NdFeB. They are the strongest type of permanent magnets available on the market. Despite their small size, they can produce a magnetic field much stronger than that of traditional magnets. The Manufacturing Process The production of neodymium magnets involves several critical steps: Raw Material Preparation: The primary elements (neodymium, iron, and boron) are mined and purified. Melting and Casting: These materials are melted together in a furnace and cast into ingots. Powdering: The ingots are then pulverized into a fine powder. Pressing: The powder is pressed into molds under high pressure, often in a magnetic field to align the particles. Sintering: The pressed molds are sintered at high temperatures to form…
Samarium Cobalt Magnet
Alnico Magnets
Alnico magnets, known for their exceptional stability and strong magnetic properties, are an important class of permanent magnets. Made from an alloy of aluminum (Al), nickel (Ni), and cobalt (Co), along with iron, copper, and sometimes titanium, these magnets have a long history of use in various applications. Alnico magnets are renowned for their durability and ability to maintain their magnetic properties under high temperatures.
Bonded Magnets
Bonded Ferrite Magnets
Bonded ferrite magnets are a type of permanent magnet made by combining ferrite magnetic powder with a binding material to form a composite. These magnets offer several advantages and are used in various applications. Here are some key points about bonded ferrite magnets: Composition and Manufacturing: Ferrite Powder: The main magnetic material is ferrite, typically composed of iron oxide mixed with barium or strontium carbonate. Binder: The ferrite powder is mixed with a binder, such as epoxy resin or a thermoplastic, to form a composite material. Molding: The mixture is then molded into the desired shape using techniques like compression molding, injection molding, or extrusion. Curing: After molding, the composite is cured to harden the binder and stabilize the shape. Characteristics: Magnetic Properties: Bonded ferrite magnets have lower magnetic strength compared to sintered ferrite magnets but still offer adequate performance for many applications. Flexibility: The bonding process allows for the creation of magnets in complex shapes and sizes that would be difficult or impossible to achieve with traditional sintering methods. Machinability: These magnets can be easily machined or cut into various shapes without losing their magnetic properties. Corrosion Resistance: The binder often provides good corrosion resistance, making them suitable for…
Bonded NdFeB Magnets
Bonded NdFeB (Neodymium-Iron-Boron) magnets are a type of permanent magnet made by combining NdFeB magnetic powder with a binding material to create a composite. These magnets are known for their high magnetic strength and ability to be molded into complex shapes and sizes, making them suitable for various applications. Here are some key points about bonded NdFeB magnets: Composition and Manufacturing: Magnetic Powder: The main magnetic material is NdFeB, which provides high magnetic strength. Binder: The NdFeB powder is mixed with a binder, such as epoxy resin, nylon, or another polymer, to form a composite material. Molding Techniques: Injection Molding: The mixture is injected into a mold to form complex shapes with tight tolerances. Compression Molding: The mixture is compressed in a mold to create the desired shape. Extrusion and Calendaring: Used for producing long, continuous shapes or thin sheets. Curing: After molding, the composite is cured to harden the binder and stabilize the shape. Characteristics: High Magnetic Strength: Bonded NdFeB magnets have high magnetic strength, though lower than that of fully dense sintered NdFeB magnets. Flexibility in Shape and Size: Can be produced in complex shapes and sizes, which may be difficult to achieve with sintered magnets. Machinability: Can…
Bonded SmCo Magnets
Bonded SmCo (Samarium-Cobalt) magnets are a type of permanent magnet made by combining SmCo magnetic powder with a binding material to form a composite. These magnets offer high magnetic strength, excellent thermal stability, and resistance to demagnetization, making them suitable for demanding applications. Here are some key points about bonded SmCo magnets: Composition and Manufacturing: Magnetic Powder: The main magnetic material is SmCo, known for its strong magnetic properties and high temperature stability. Binder: The SmCo powder is mixed with a binder, such as epoxy resin, nylon, or another polymer, to form a composite material. Molding Techniques: Injection Molding: The mixture is injected into a mold to form complex shapes with tight tolerances. Compression Molding: The mixture is compressed in a mold to create the desired shape. Extrusion and Calendaring: Used for producing long, continuous shapes or thin sheets. Curing: After molding, the composite is cured to harden the binder and stabilize the shape. Characteristics: High Magnetic Strength: Bonded SmCo magnets have strong magnetic properties, though generally lower than fully dense sintered SmCo magnets. Thermal Stability: Excellent performance at high temperatures, maintaining magnetic strength and stability. Resistance to Demagnetization: High resistance to demagnetization, making them suitable for applications with strong…
FeCrCo Magnets
FeCrCo (Iron-Chromium-Cobalt) magnets are a type of permanent magnet known for their excellent machinability, corrosion resistance, and moderate magnetic properties. They are often used in applications where complex shapes and high precision are required. Here are some key points about FeCrCo magnets: Composition and Manufacturing: Alloy Composition: FeCrCo magnets are primarily composed of iron (Fe), chromium (Cr), and cobalt (Co), with typical proportions being about 26-30% Cr, 12-16% Co, and the balance being Fe. Manufacturing Process: Melting and Casting: The alloy is melted and cast into ingots. Homogenizing: The ingots are homogenized through heat treatment to ensure uniform distribution of elements. Rolling and Drawing: The ingots are hot-rolled and cold-drawn into wires, strips, or other shapes. Aging: Heat treatment is applied to enhance the magnetic properties by precipitating the CrCo phase. Characteristics: Magnetic Properties: FeCrCo magnets have moderate magnetic strength compared to other permanent magnets like NdFeB or SmCo. They have a high coercivity (resistance to demagnetization) and good remanence (residual magnetism). Machinability: One of the key advantages of FeCrCo magnets is their excellent machinability. They can be easily machined into complex shapes and fine details using standard machining techniques. Corrosion Resistance: The chromium content provides good corrosion resistance, making…
Ferrite Magnets
Hard Ferrite Magnets
Hard ferrite magnets, also known as permanent ferrite magnets, are characterized by their strong magnetic properties and resistance to demagnetization. Characteristics: High Coercivity: Strong resistance to being demagnetized by external magnetic fields. High Remanence: High residual magnetism, meaning they retain a significant amount of their magnetization after an external magnetic field is removed. Brittleness: Typically brittle and can crack or chip if not handled properly. Corrosion Resistance: Good resistance to corrosion, often used without additional coatings. Applications: Loudspeakers: Used in speaker magnets due to their stable magnetic properties and low cost. Motors: Employed in various types of motors, including those in household appliances and automotive applications. Magnetic Separators: Used in industrial applications to separate magnetic materials from non-magnetic ones. Magnetic Assemblies: Utilized in various magnetic assemblies and holding devices.
Pot Magnets
Neodymium Pot Magnets
Retrieving Magnets
SmCo Pot Magnets
Alnico Pot Magnets
Deep Pot Magnets
Ferrite Pot Magnets
Countersunk Magnets
Retrieving Magnets
Channel Magnets
Neodymium Channel Magnets
Alnico Channel Magnets
Ferrite Channel Magnets
Sandwich Magnet Assemblies
Magnetic Systems
Ceiling Magnets
Gun Magnets
Cow Magnets
Magnetic Ball Joints
Magnetic Cable Holders
Magnetic Catches
Magnetic Hanging System
Magnetic Display Frame
Magnetic Name Badge
Magnetic Pads
Magnetic Pick Up Tools
Magnetic Trays
Magnetic Formwork System
Insert Magnets
Magnetic Chamfer
Magnetic Rubber Chamfer
Magnetic Steel Chamfer
Magnetic Urethane Chamfer
Shuttering Magnets
Standard Shuttering Magnets
Corner Shuttering Magnets
Shuttering Magnets with Adapters
Step Shuttering Magnets
Formwork Universal Magnets
Loaf Magnets
Shuttering Systems
Shuttering Magnet Adapter
Magnetic Chamfer
Magnetic Rubber Chamfer
Magnetic Steel Chamfer
Magnetic Urethane Chamfer
Precast Accessories
Magnetic Fixing Plates
Miscellaneous Magnets
Thread Protectors
Recess Members
Conduit and PVC Locator Magnets
Magnets for Industries
Magnetic Lifter
Fishing Magnets
Guitar Pickup Magnets
Hard Disk Drive Magnets
Magnetic Chuck
Magnetic Coupling
Magnetic Speaker Driver
Multipole Radial Ring Magnets
Motor Magnets
Rotor Magnets
Sensor Magnets
Speaker Magnets
Blog
Contact
Request a Quote
Home
/ Pot Magnets
Pot Magnets
Search
No results found
You can try
clearing any filters
or head to our
store’s home
