Eclipse Neodymium High Temperature Bi-Pole Deep Pot Magnets
Eclipse Neodymium High Temperature Bi-Pole Deep Pot Magnets
Magnet Specifications
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Neodymium High Temperature Bi-Pole Deep Pot Magnets are powerful permanent magnetic assemblies engineered for applications that require exceptional magnetic strength, elevated temperature performance, and long-term reliability. Each magnet contains a centrally located high-performance neodymium-iron-boron (NdFeB 42SH) core enclosed within a durable brass pot housing. This construction creates both a North and a South magnetic pole across the steel contact surfaces, allowing the magnet to securely attract ferrous materials in demanding industrial environments.
The deep pot design concentrates magnetic flux onto the working face, delivering impressive pull force relative to the magnet’s compact size. The brass pot housing improves efficiency by directing magnetic energy toward the active faces while protecting the internal magnet from mechanical damage, corrosion, and wear. This robust assembly ensures consistent magnetic performance even in environments exposed to heat, vibration, or repeated use.
Key Features
- High magnetic strength: powerful holding and clamping force generated by the high-performance NdFeB 42SH magnet core.
- Bi-pole magnetic design: creates both North and South poles across the working surfaces, improving magnetic contact and grip.
- Deep pot construction: concentrates magnetic flux to maximise pull force relative to the compact magnet size.
- Durable brass housing: protects the internal magnet from mechanical damage while directing magnetic energy efficiently.
- Precision-engineered: diameter ground to H6 tolerance for accurate installation in fixtures and engineered assemblies.
- High temperature resistance: performs reliably in demanding environments up to 150°C.
Typical Applications
- High-temperature magnetic holding and clamping systems.
- Industrial component mounting and secure attachment in machinery.
- Precision fixturing, tooling, and positioning devices.
- Magnetic workholding systems are used in specialist manufacturing processes.
- Sensor housings, instrumentation mounts, and engineered assemblies.
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