Industries:
Automotive, Chemical, Cleaning, Construction, Logistics, Mining, Oil & Gas, Industry
Environments:
Dry environment, Muddy environment, Uneven surfaces, Wet environment
Maintenance Instructions:
To extend the life of your shoes, we recommend cleaning them regularly and protecting them with adequate products.
Do not dry your shoes on a radiator or near a heat source.
| Description | Measure Unit | Result | EN ISO 20345 |
|---|---|---|---|
| Upper – Barton Action Leather | |||
| Upper: permeability to water vapor | mg/cm²/h | 2.2 | ≥ 0.8 |
| Upper: water vapor coefficient | mg/cm² | 25 | ≥ 15 |
| Lining – Mesh | |||
| Lining: permeability to water vapor | mg/cm²/h | 49.8 | ≥ 2 |
| Lining: water vapor coefficient | mg/cm² | 398.8 | ≥ 20 |
| Footbed – SJ foam footbed | |||
| Footbed: abrasion resistance (dry/wet) (cycles) | cycles | 25600/12800 | 25600/12800 |
| Outsole – PU/PU | |||
| Outsole abrasion resistance (volume loss) | mm³ | 56.4 | ≤ 150 |
| Basic Slip resistance – Ceramic + NaLS – Forward heel slip | friction | 0.44 | ≥ 0.31 |
| Basic Slip resistance – Ceramic + NaLS – Backward forepart slip | friction | 0.41 | ≥ 0.36 |
| SR Slip resistance – Ceramic + glycerin – Forward heel slip | friction | 0.29 | ≥ 0.19 |
| SR Slip resistance – Ceramic + glycerin – Backward forepart slip | friction | 0.29 | ≥ 0.22 |
| Antistatic value | MegaOhm | 120.7 | 0.1 – 1000 |
| ESD value | MegaOhm | N/A | 0.1 – 100 |
| Heel energy absorption | J | 29 | ≥ 20 |
| Toecap – Steel | |||
| Impact resistance toecap (clearance after impact 100J) | mm | N/A | N/A |
| Compression resistance toecap (clearance after compression 10kN) | mm | N/A | N/A |
| Impact resistance toecap (clearance after impact 200J) | mm | 15 | ≥ 14 |
| Compression resistance toecap (clearance after compression 15kN) | mm | 15 | ≥ 14 |
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