Footwear is manufactured using both synthetic and natural materials which conform to the relevant testing requirements of EN ISO 20345. The footwear protects the wearers toes against risk of injury from falling objects and crushing when worn in work environments where potential hazards occur.
Yılmaz Safety Footwear has been tested by PFI PRÜF-UND FORSCHUNGSINSTITUT PIRMASENS E.V. to the EEC Directive for Personel Protective Equipment (PPE) Directive no.89 /686 / EEC and carries the CE mark accordingly.
EN ISO 20345 :Toe protection tested with 200J impact and 15 kN compression force (includes fuel oil resistant outsole)
EN ISO 20347 : No toe protection against mechanical hazards provided, must provide protection to one or more of the categories P,C,A,E,CI or HI.
EN ISO 20345 | : | Number of European Standard |
0903119-01-86 | : | PFI Certificate No |
0193 | : | Reference of Authorized Institution who affirmed the product. (PFI) |
A-ONE/701 | : | Product Group Identification |
08/2009 | : | Production Date |
41 | : | Shoe Size |
S2 | : | Type Classification |
additional safety properties |
P | : | Penetration resistance (Steel Midsole) |
C | : | Conductive footwear Electrical Resistance ≤100kΩ |
A | : | Antistatic footwear |
HI: | : | Insulation against heat: 30 minutes at -150°C, ΔT≤22°C |
CI: | : | Insulation against cold: 30 minutes at -20°C, ΔT≤10°C |
E: | : | Energy absorption of seat region |
WRU | : | Water Resistant Upper Leather |
HRO | : | Resistance to hot contact 300°C |
ESD | : | Electrostatic Discharge |
EN ISO 20345 Toe protection tested (with 200J impact and 15 kN compression force) |
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SB | : | Safety Basic |
S1 | : | Antistatic properties. Energy absorption of seat region. Cleated outsole. |
S1 P | : | Antistatic properties. Energy absorption of seat region. Cleated outsole. Steel midsole. |
S2 | : | Antistatic properties. Energy absorption of seat region. Cleated outsole. Water repellent. |
S3 | : | Antistatic properties. Energy absorption of seat region. Cleated outsole. Water repellent. Steel midsole. |
EN ISO 20347 No toe protection against mechanical hazards provided |
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01 | : | Antistatic properties. Energy absorption of seat region. |
01 P | : | Antistatic properties. Energy absorption of seat region. Steel midsole. |
02 | : | Antistatic properties. Energy absorption of seat region. Water repellent. |
03 | : | Antistatic properties. Energy absorption of seat region. Water repellent. Steel midsole. |
UPPER |
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Tearing Strength | : | Min. 120 N |
Tensile Strength | : | Min. 15 N/ mm² |
Water Steam Conductivity and Factor | : | Min. 0.8 mg/cm². saat, en az 15 gr/cm² |
Ph Value |
: | Min. 3.2 |
Chrome IV | : | None |
Water Penetration and Water absorpsiyonu | : |
60 min., no water penetration, water absorption max. 30 % End of 90 min. water penetration max. 2 gr |
LINING |
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Tearing Strength | : | Leather min. 30 N, Textile min. 15 N |
Tensile Strength | : | Dry min. 25600, wet min. 12800 rotation |
Water Steam Conductivity and Factor | : | Min. 2 mg/ cm² hour, min. 20/ cm² |
Ph Value | : | Min. 3.2 |
Crom IV |
: | None |
TONGUE |
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Tearing Strength | : | Leather min. 36 N, Textile min. 18 N |
Ph Value | : |
Min 3,2 |
Crom IV | : | None |
SOLE LINING |
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Thickness | : | Min. 2 mm |
Ph Value | : | Min. 3.5. ( valid for leather) |
Abrasion Strength | : | Min. 400 rotation |
Water Absorption | : | Min. 70 mg/cm² |
Water Adsorption | : |
Min. %80 |
SOLE |
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Thickness | : | Min 6 mm |
Design Height | : | Min. 2.5 mm |
Deviation Strength between Layers | : | Min. 4 N/mm |
Hot Surface Strength | : | Min. 300 °C |
Tensile Strength | : |
Min.z 5kN/m |
Abrasion Strength | : | Max. 150 mm³ |
Hydrolysi | : | Max. 6mm growth in cute |
Resilience Strength | : | Max. 4 mm |
Fuel-oil Resistance | : | Volume increase max. 12% |
Slipping Resistance – ceramics | : | Min. 0, 32, heel area min. 0, 28 |
COMPLETE SHOE |
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Upper/Sole Sticking Strength | : | Min. 4 N/mm |
Sinking Strength | : | Min. 1100 N |
Electricity Strength (static shoes) | : | Max. 100 K Ω |
Electricity Strength (anti-static) | : | 100k Ω - 1000 Ω |
Isolation against Heat | : | Temperature increase must not be more than 22 ºC |
Isolation against Cold | : | Temperature decrease must not be more than 10 ºC |
Energy Absorption of Heel Area | : | Min. 20 J |
BToe Cap Knock Strength | : | 200 J ± 4 J (EN ISO 20345 için ) |
Toe Cap Pressure Strength | : | 15 KN ± 0.1 kN |
Toe Cap Corrosion Strength | : |
No. of corrosion area max. 5 Each corrosion area max. 2.5 mm² |