Different regional and national safety shoes specifications
1. European Common Market Safety Specification (EN344.1:1992) According to the testing methods and specifications of this standard, safety shoes can be divided into three types:
.EN345.1:1992: Safety shoes for professional use, with steel plates built into the toe, which can prevent impact forces equal to 200 J (J).
.EN346.1:1992: Professional-purpose protective shoes with a steel plate built into the toe that can withstand an impact force equal to 100 J (J).
.EN347.1:1992: Work shoes for professional use, without steel sheets in the toe.
2. American Standard (ANSI-Z41-1991)
According to the resistance of the shoe to compression and impact, safety shoes with protective toe can be divided into three types.
3. Australian Standards (AS/NZS 2210.1:1994)
This standard divides safety shoes into four types, including: Heavy duty work safety shoes, medium work safety shoes, light work safety shoes, waterproof safety shoes.
4. National Standards of the People's Republic
.GB4014-83 leather safety shoes. GB7054-86 rubber surface anti-mite safety boots
5. Japanese Standard (J1S-T-8015: 1983)
Introduction to national standards
First, product safety performance and physical performance standards:
Inspection project implementation standard standard requirements
Impact resistance test (mm) LD50-94 Anl: Impact hammer 23kg, after falling 900mm impact, the inner clearance of the shoe is ≥15
Pressure resistance test (mm) LD50-94 Anl: 15KN pressure resistance test after the shoe clearance ≥ 15
Puncture resistance (N) GB12017-1989 Special grade: ≥1100 (environmental conditions 18-28 °C)
Insulation performance test (6KV) GB12011-2000 Test voltage 6KV, duration 2min,
Leakage current <5 mA
Antistatic performance test (Ω) GB4385-95 Resistance value 105Ω-109Ω
Oil resistance GB16756-97 resistant to gasoline, kerosene, transformer oil and trimethylpentane solvent,
Expansion ≤12%
High temperature resistance LD4-91 Low heat resistance, heat resistant temperature 150±5°C
Outer thickness (mm)
The thickness of any part of the sole is ≥6
Outsole wear (mm)
≤10
Outsole folding resistance (mm)
≤12
Peel strength (N/cm)
≥59
Outsole hardness (Shore A)
55-72
1. European Common Market Safety Specification (EN344.1:1992) According to the testing methods and specifications of this standard, safety shoes can be divided into three types:
.EN345.1:1992: Safety shoes for professional use, with steel plates built into the toe, which can prevent impact forces equal to 200 J (J).
.EN346.1:1992: Professional-purpose protective shoes with a steel plate built into the toe that can withstand an impact force equal to 100 J (J).
.EN347.1:1992: Work shoes for professional use, without steel sheets in the toe.
2. American Standard (ANSI-Z41-1991)
According to the resistance of the shoe to compression and impact, safety shoes with protective toe can be divided into three types.
3. Australian Standards (AS/NZS 2210.1:1994)
This standard divides safety shoes into four types, including: Heavy duty work safety shoes, medium work safety shoes, light work safety shoes, waterproof safety shoes.
4. National Standards of the People's Republic
.GB4014-83 leather safety shoes. GB7054-86 rubber surface anti-mite safety boots
5. Japanese Standard (J1S-T-8015: 1983)
Introduction to national standards
First, product safety performance and physical performance standards:
Inspection project implementation standard standard requirements
Impact resistance test (mm) LD50-94 Anl: Impact hammer 23kg, after falling 900mm impact, the inner clearance of the shoe is ≥15
Pressure resistance test (mm) LD50-94 Anl: 15KN pressure resistance test after the shoe clearance ≥ 15
Puncture resistance (N) GB12017-1989 Special grade: ≥1100 (environmental conditions 18-28 °C)
Insulation performance test (6KV) GB12011-2000 Test voltage 6KV, duration 2min,
Leakage current <5 mA
Antistatic performance test (Ω) GB4385-95 Resistance value 105Ω-109Ω
Oil resistance GB16756-97 resistant to gasoline, kerosene, transformer oil and trimethylpentane solvent,
Expansion ≤12%
High temperature resistance LD4-91 Low heat resistance, heat resistant temperature 150±5°C
Outer thickness (mm)
The thickness of any part of the sole is ≥6
Outsole wear (mm)
≤10
Outsole folding resistance (mm)
≤12
Peel strength (N/cm)
≥59
Outsole hardness (Shore A)
55-72
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