Puma Blaze Knit Low S1P Blue Safety Trainers
The shaft of the metal-free Blaze Knit Low is made of Safety Knit, a highly flexible and durable textile fabric which adapts perfectly to the foot and fits like a sock. TPU-protection elements in the area of the front cap and the heel provide abrasion protection, especially during kneeling work. Concerning the sole, the Blaze Knit Low belongs to the Urban Protect line. The special highlight of the 300 degree Celsius resistant rubber sole is the integrated rotation point. This point at the interior middle foot is the most demanded during the motion sequence in the working routine. Due to a strengthening of the rotation point, friction and thus fatigue are minimized. A fibreglass cap and the flexible, metal free Fap anti-perforation protection secure the whole surface of the feet.
Features:
- Protection: Fiberglass cap,non-metallic and flexible Fap midsole
- Plus: TPU toe cap protection against abrasion, metal-free
- Upper: Safety Knit, leather with textile inserts
- Lining: Breath active functional lining
- Footbed: Evercushion BA
- Sole: Rubber sole Urban, IdCell, rotation point, 300 degree Celsius heat resistant
- Material: Textile fabric (Polyester)
- Fibreglass Toe Cap: New developed fibreglass reinforced composite toe cap with more space for the toes, lighter than a common steel cap; antimagnetic and thermally insulating
- Fap Flexible Anti Penetration: The flexible anti-penetration midsole made out of ceramic-coated fibres, protects the feet completely from penetrating objects
- Evercushion BA+: The open-cell foam of polyurethane transports moisture away from the foot and ensures in combination with the water-absorbing and antibacterial covered fabric for a pleasant foot climate. As all evercushion footbeds, this sole offers a permanent cushioning without losing its elasticity prolonging the shoe life
- Rubber Outsole Urban: This 300 degree Celsius heat resistant HRO rubber outsole with its differently shaped profile elements offers optimal mobility and safe contact with the ground. Due to the increase of the rotation point, friction and thus tiredness can be significantly reduced