Magnetic tracks form a constant and powerful magnetic field even through belts of remarkable thickness. In this way, they can solve many handling problems concerning the conveying of ferrous bodies, cans and lids.

A good combination of magnetic tracks and pulleys allows an either vertical or horizontal conveying system. The choice of a particular kind of track depends on many factors: the overall dimensions, the working angle (0-90°), the belt's thickness and the kind of can (diameter, height, weight). Our standard tracks are made up of Permanent magnet obtained by Iron oxides mixed with Barium or Strontium. It boasts an excellent magnetic efficiency and resists to high temperatures up to 250°C. Ferrite magnets. Therefore, they generate wide spectrum magnetic fields and guarantee a good demagnetization as well as high resistance to temperature (350°C) at low costs In the last years the various types of Permanent magnet (NdFeB) with the highest energy density available today, it is obtained by sintering of rare earths.
It has a considerable resistance to demagnetization and can be employed with temperatures from 80°C (in case of standard grades) up to 200°C.Neodymium , tracks obtained a remarkable success. in fact, Neodymium's high magnetic characteristics allow the use of tracks with very low thickness, give a higher attraction force and enable the employment of such tracks in high speed transports. If used at max temperature of 120°C and assembled in plastic pieces, Permanent magnet (NdFeB) with the highest energy density available today, it is obtained by sintering of rare earths.
It has a considerable resistance to demagnetization and can be employed with temperatures from 80°C (in case of standard grades) up to 200°C.Neodymium tracks allow working even in damp rooms.