Safety Shoe AB-31751 The ESD lace-up shoe uni6 made from smooth leather provides optimal safety and comfort for professional requirements. Equipped with a steel toe cap and an oil and gasoline-resistant outsole, this safety shoe meets the standards DIN EN 61340-5-1 and EN ISO 20345:2011 S2, SRC. The microfiber lining and "on steam" technology ensure breathability and moisture absorption. The dimensionally stable padded collar and a cushioning PU midsole offer additional comfort and stability.
Technical Specifications:
- Type: Low shoe
- Series: uni6
- Color: Black
- Sizes: 35-48
- Insole: Replaceable, Active Comfort
- Gender: Unisex
- Weight (Size 42): 697 g
- Upper Material: Leather
- Orthopedic Insoles: DGUV 112-191
- Closure: Lace-up
Note: This is a discontinued item. Alternative item: AB-31752.
Shoes have been tested in accordance with the specifications of DIN EN 61340. They generally have a volume resistance of 7.5 x 10^5 to 3.5 x 10^7 ohms.
Safety class S2
Shoes with a protective toe cap. They are slip-resistant, antistatic, waterproof and have energy absorption capacity in the heel area. They also have a closed heel area and a fuel-resistant sole.
Shoes with a protective toe cap made of aluminum, plastic or steel. They are slip-resistant, antistatic, waterproof and have energy absorption capacity in the heel area. They also have a puncture-resistant steel midsole, a profiled outsole and a closed heel area. A fuel-resistant sole is also possible.
Steel toe cap
Steel toe caps are somewhat heavier than other materials, but are very stable and resistant. As a rule, they can withstand a force of at least 200 joules.
Slip resistance SRC
The shoe is slip-resistant both on ceramic tiles with NaLS (sodium sulphate solution) and on steel floors with glycerine.
Exchangeable insole
The insole is not firmly integrated into the shoe, but only inserted loosely. It can therefore be easily replaced if necessary.
DGUV 112-191
This regulation stipulates that orthopaedic insoles may only be used in safety footwear in conjunction with a valid type examination. This is to ensure that specified and tested properties (e.g. antistatic properties) are maintained.