Eclipse Magnetics Neodymium Channel Magnets are versatile, high-strength magnetic bars designed for reliable mounting, holding and fixture applications. Each unit consists of a powerful NdFeB (neodymium) magnetic assembly enclosed within a robust steel channel housing. Countersunk holes in the channel allow quick and secure screw mounting to fixtures, brackets, panels or other structures.
The steel channel directs the magnetic flux outwards toward the working face for strong adhesion on ferrous surfaces, while the zinc-plated finish provides corrosion resistance for workshop and industrial environments. These magnets are ideal for sign and display mounting, tool holding, alignment fixtures, jigs, and other applications where strong magnetic contact is required along a linear surface.
Key Features
- High-strength neodymium (NdFeB) magnet core for maximum holding force.
- Steel channel housing concentrates magnetic flux to the working face.
- Countersunk fixing holes simplify secure mounting by screw or bolt.
- Zinc-plated finish for corrosion resistance and durability.
- Linear magnetic design suitable for jigs, fixtures and panel mounts.
- Multiple lengths available to suit a variety of applications.
Typical Applications
- Mounting signage, nameplates, noticeboards and panels to steel surfaces.
- Workshop and factory floor tool holding or fixture attachment.
- Positioning guides and brackets where strong magnetic hold is required.
- Alignment fixtures and assembly jigs.
- Retail displays and point-of-sale mounting frames.
Technical Data
| Product Code |
Length (mm) |
Width (mm) |
Height (mm) |
Pull Force (kg) |
Fixing Holes |
Finish |
| NCM010 |
10 |
13.5 |
5 |
4 |
1 × M3 |
Zinc Plate |
| NCM020 |
20 |
13.5 |
5 |
8 |
1 × M3 |
Zinc Plate |
| NCM040 |
40 |
13.5 |
5 |
17 |
2 × M3 |
Zinc Plate |
| NCM060 |
60 |
13.5 |
5 |
30 |
2 × M3 |
Zinc Plate |
| NCM080 |
80 |
13.5 |
5 |
35 |
2 × M3 |
Zinc Plate |
| NCM100 |
100 |
13.5 |
5 |
42 |
2 × M3 |
Zinc Plate |
Data based on the product specification from Eclipse Magnetics. Actual holding force and performance can vary depending on application, surface finish and material thickness.
