MIN CI 32mm Neodymium Magnet 45kg lifting 📷

This pair of round neodymium magnets is built for lifting, hanging and recreational magnet fishing, offering compact discs that combine strong pull force with a rust-resistant finish. Each 32mm magnet holds up to 99lbs under ideal conditions according to the manufacturer, making the set useful for recovery tasks and general-purpose hoisting around the workshop.

Key Points

The magnets come as a two-pack and include countersunk holes so eye bolts can be fitted quickly for retrieval or hanging. The outer face is finished with a non-magnetic steel cup except for the exposed magnetic base, which helps protect the magnet and nearby surfaces from damage. For outdoor use and underwater recovery the plating and smooth surface reduce corrosion and scratching, however consider that real-world holding power depends on contact surface, alignment and material thickness. 🎣

These discs work both for hobby magnet fishing and practical tasks such as retrieving dropped ferrous objects or hanging tools in the garage. They are compact enough to store easily and simple to attach to ropes or rigs when you need to pull items from awkward positions. ⚙️

Technical Specifications

• Name: MIN CI 2 Pack Round Neodymium Magnets
• Diameter: 32mm
• Maximum holding capacity: 99lbs (45kg) according to the manufacturer
• Quantity: 2 pieces
• Feature: Countersunk hole with included eye bolt compatibility
• Finish: Electroplated with protective non-magnetic steel cup

Usage Recommendations

When using the magnets for lifting or magnet fishing, ensure the magnet makes full, flat contact with the metal surface to approach the stated holding capacity. For recovery operations, attach a secure eye bolt and use a rated rope or cord for retrieval, checking knots and connections before applying load. These magnets are not inert to shock or side pulling, so avoid impacts or sideways forces that can reduce grip and present safety risks.

For storage, keep the pair separated or use a wooden spacer to prevent them snapping together suddenly, and avoid placing them near sensitive electronics or magnetic storage media. Consider that laminated or painted metal and small contact areas will reduce effective pull strength, and thicker ferrous materials yield stronger attraction.