Safety Boots from Active Workwear

Posted by Jack Durant at

Safety Footwear Standards Explained EN345 / EN ISO 20345:2007 / EN ISO 20345:2011

What you wear on your feet really matters. Getting the right footwear will make life safer and easier. Employers are legally responsible for providing the correct footwear. Protect now. The safety footwear standard is referred as EN345, EN ISO 20345:2004, EN ISO 20345:2007 and EN ISO 20345:2007. All footwear designed before 2004 and still manufactured up to today carries EN ISO 20345:2004. EN ISO 20345:2007 standard for footwear designed or retested after 2007 the new standard is the EN ISO 20345:20011 and un like the previous standards all foot wear manufactured after the 31st of July 2013 must meet that standard, that doesn't mean that footwear made before that date is now of no use what it means is that footwear produced after that date will meet the new tougher standard. The EN ISO 20345:2007 standard sets out minimum requirements that safety footwear must be successfully tested against. The EN ISO 20345:2011 standard sets out new tougher minimum requirements that safety footwear must be successfully tested against. The standard specifies all safety footwear must have toe protection. In addition to different protective features footwear represented by a combination of letters. All Safety Footwear in this standard is at least SB which means it has toe protection against a 200 Joule impact Toe protection (SB) your toes are a very vulnerable part of your body, especially in a work place. Toe protection must withstand a 200 joule impact. Joule is the unit of energy and this standard is purposefully specific. Something heavy falling from a low height could have a lot less energy than something lighter from a much higher height. As well as impacts the toe area must withstand a resting mass of well over 1000kg.

Most people have heard of steel toe cap boots but the protection doesn't have to be steel there are advantages to alternatives such as Non-metallic composite protection is as strong but lighter.

Antistatic protection (A) Clothing, seating materials, and climate factors can cause a build up a static charge of electricity in the body. Some materials in footwear can over insulate the body causing the charge to be held. When you then touch something the charge can rush from your body quickly causing a spark and a small uncomfortable shock. Antistatic footwear will significantly reduce this effect but does not offer full protection for exposure to electronics and explosives work. You will need Electro-Static Protection (ESD) for this.

Midsole penetration protection (P) - SB-P, S1-P, S3, S5 Sharp objects where we walk and stand are significant risk not only in the workplace but also outdoors and at home. Midsole protection will guard against nails and other objects. To meet this standard the footwear must be able to resist a penetration force of 1100N. Midsole protection is provided in one of these methods a stainless steel insert in the sole, aluminium insert in the sole, or by Kevlar insole. The Aluminium and Kevlar solutions are the most flexible and lightest and cover the greatest area of the foot. Kevlar insoles also offer much higher thermal insulation.

ESD footwear is designed for the electronics and explosives industry and has to meet ESD CEI EN61340-5-1 standard. -metallic footwear Safety footwear containing no metal parts are ideal for workplaces with metal detectors like airports eliminating the hassle of removing them.

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