EN 344 : General Requirements

This standard defines the general requirements and test methods on safety shoes, protective shoes and working shoes for professional use.
It can only be used together with EN 345, EN 346 and EN 347 standard, which specify the shoes requirements according to specific risks levels.

EN 345 : Specifications on Safety Shoes for Professional Use

This standard defines the basic and additional (optional) requirements on safety shoes for professional use.
These shoes include devices to protect the user against injuries caused by accidents liable to occur in the industrial environment for which the shoe has been designed, fitted with safety toe-cap intended to deliver a protection against impacts with an energy level equal to 200 joules.

Class 1 : All materials except natural or syntetic polymers
S1 Basic properties and closed back, anti-static properties, heel energy absorption
S2 Like S1 and Waterproofness
S3 Like S2 and anti-puncture sole, studded sole

Class 2 : Natural and syntetic polymers
S4 Basic properties and anti-static properties, heel energy absorption
S5 Like S4 and anti-puncture sole, studded sole

EN 346 : Professional Shoes

This standard defines the requirements additional for the protection shoes relating to the strength to water, the protection of the metatarses and resistance to the cuts.

EN 347 : Specifications on Working Shoes for Professional Use

These shoes are different from safety shoes because they have no protective toe-cap against impact and crushing.
O1 Basic properties and closed back, sole resistance to hydrocarbons, anti-static properties, heel energy absorption
O2 Like O1 and Waterproofness
O3 Like O2 and anti-puncture sole, studded sole

Optional Protection Symbol Explanation

"I" and "C" Markings - Impact and Compression Resistance

This is a test of a shoe's capacity to protect the toe area of the foot against falling objects or heavy rolling objects such as a forklift. The toe area is protected by using protective toe cap
construction, commonly referred to as "Steel Toes," although some Iron Age/Knapp safety shoes use a Non-Metallic protective cap that is equally effective.
There are 2 levels of protection available for Impact (I) and Compression (C) resistance - Class 50 and 75. Class 75 is the highest and it is recommended for most applications.

Impact :
I/75 = 75 ft. lbf (101.7 Joules)
I/50 = 50 ft. lbf (67.8 Joules)

Compression :
C/75 = 2500 lbs (1100 Kg)*
C/50 = 1750 lbs (790 Kg)

*when a 50-pound (22 Kg) weight is dropped from eighteen inches (45 cm) onto the protective cap

Test Clearances after test for impact and compression :
- 0.500 inch (12.7mm)

"M" Marking - Metatarsal

Established standards for the protection of the upper foot (metatarsal bones) and toe areas. Designed to prevent or reduce injuries when the toe and metatarsal areas of the foot are exposed to "drop" hazards.
There are 2 levels of protection available for - Class 50 and 75.
Class 75 is the highest and it is recommended for most applications.
The impact energies (75 and 50) are the same as for the toe impact.
Test Clearances after the metatarsal test impact are :
- 1 inch (25.4mm)

"EH" Marking - Electrical Hazard

EH footwear is designed to reduce the hazards due to the accidental contact of the sole with electrically energized parts and to provide secondary electrical-hazard protection on substantially
electrically insulated surfaces, live electrical circuits, electrically energized conductors, parts, or appartus under dry conditions.
Electric shock resistant footwear must be capable of withstanding the application of 14,000 volts at 60 Hz for 1 minute with no current flow or leakage in excess of 3.0 milliamperes under dry
conditions.