Some details

Footall shoes are composed of two materials: the iron core, which provides stability, and the polyurethane, which thanks to its anti-shock property absorbs shocks and vibrations, relieving the load on the horse's joints and tendons. Footall shoes, by reducing the sense of heaviness and fatigue in the limbs, help prevent and alleviate the symptoms of the most important joint pathologies such as osteoarthritis, tendonitis, naviculitis, inflammation of the ligaments, swelling of the clips, etc.

To each his own

There are various types of cold shaped Footall polyurethane horseshoes that can be used both in the competitive field because they have shock-absorbing properties, and on terrains where a particular grip is needed for walks in the countryside and for events.

And it is thanks to the high quality of the materials used for its construction that this shoe has excellent resistance to wear and tear and is durable over time.

Check out the models
  • Easy shoeing

    Footall shoes are easily cold shaped with conventional farrier tools. Furthermore, the application can be easily done with traditional shoeing nails.

  • Iron and polyurethane

    The Footall shoe is made using a classic iron, used as a base, on which the polyurethane is poured. The polyurethane is then vulcanized and treated to create a single body with the iron.

  • Goodbye vibrations!

    The Footall shoe eliminates the typical vibrations of traditional irons that damage the horse's nails and cartilage, by absorbing the impacts it eliminates the shocks causing an immediate beneficial effect on the horse's limbs.

  • Polyurethane for shock absorbing shoes and pads 94 shoreA - 45 shoreD

    M 100% 11N/mm2

    M 300 % 19 N/mm2

    Tens. str. 32N/mm2

    Elong. 510%

    Tear str. 110N/mm2

    Shrink 1.2%

    Abrasion 40 mm3

    CS 24h/ 70°C 17%

    SC 70 h/ 23 °C 12 %

  • Polyurethane for anti-slip shoes 98 shoreA - 55 shoreD

    M 100% 16N/mm2

    M 300 % 25 N/mm2

    Tens. str. 41 N/mm2

    Elong. 400%

    Tear str. 145N/mm2

    Shrink 1.2%

    Abrasion 45 mm3

    CS 24h/ 70°C 17%

    CS 70 h/ 23 °C 9 %.