Open HSME menu
Subscribe Login

Home / Articles and Press Releases / Article / Safety Footwear [May 2011]

CATEGORIES

  • Latest Issue
  • Above The Neck Protection
  • Chemical Protection
  • Confined Space
  • Construction
  • Emergency Procedures
  • Energy, Oil, and Mining Industries
  • Eye Protection
  • Fall Protection
  • Gas Detection
  • Hand Protection
  • Hazardous and Explosive Atmospheres
  • Health and Safety Awareness
  • Hearing Protection
  • Heat
  • Lighting and ATEX
  • Noise Monitoring
  • Personal Protective Equipment
  • Respiratory Protection
  • Safety Footwear
  • Safety Technology
  • Safety Training
  • Slips, Trips, and Falls
  • Wellbeing at work
  • Working at Height
  • Working rights

MORE

  • Press Release
  • Events
  • Videos
  • Webinars
  • Magazines

COMPANY

  • About
  • Advertising
  • Newsletter
  • Contact
Open HSME menu
Subscribe

Home / Articles and Press Releases / Article / Safety Footwear [May 2011]

CATEGORIES

  • Latest Issue
  • Above The Neck Protection
  • Chemical Protection
  • Confined Space
  • Construction
  • Emergency Procedures
  • Energy, Oil, and Mining Industries
  • Eye Protection
  • Fall Protection
  • Gas Detection
  • Hand Protection
  • Hazardous and Explosive Atmospheres
  • Health and Safety Awareness
  • Hearing Protection
  • Heat
  • Lighting and ATEX
  • Noise Monitoring
  • Personal Protective Equipment
  • Respiratory Protection
  • Safety Footwear
  • Safety Technology
  • Safety Training
  • Slips, Trips, and Falls
  • Wellbeing at work
  • Working at Height
  • Working rights

MORE

  • Press Release
  • Events
  • Videos
  • Webinars
  • Magazines

COMPANY

  • About
  • Advertising
  • Newsletter
  • Contact

CATEGORIES

  • Safety Signage
  • Heat and Flame
  • Article
  • Press Release
  • Air Pollution
  • Above The Neck Protection
  • Chemical Protection
  • Confined Space
  • Construction
  • Emergency Procedures
  • Energy, Oil, and Mining Industries
  • Eye Protection
  • Fall Protection
  • Gas Detection
  • Hand Protection
  • Hazardous and Explosive Atmospheres
  • Health and Safety Awareness
  • Hearing Protection
  • Heat
  • Lighting and ATEX
  • Noise Monitoring
  • Offshore Platform Safety
  • Personal Protective Equipment
  • Regulations & Legislations
  • Respiratory Protection
  • Safety Footwear
  • Safety Technology
  • Safety Training
  • Slips, Trips, and Falls
  • Wellbeing at work
  • Working at Height
  • Working rights

Article

Safety Footwear [May 2011]

By Raj Gohil

| Read Bio

Published: January 05th, 2011

Share this article

While obviously safety products manufactured in the Middle East will be subject to emerging regulations, products sold in the European Community – wherever they are made – must be CE marked.

This has been the case since June 1995. Products designed to protect the user from health and safety hazards are called Personal Protective Equipment (PPE) and in Europe are covered by the Personal Protective Equipment Directive 89/686/EEC, which includes a set of health and safety requirements with which all PPE must comply.

While there is an increasing acceptance in the Middle East that both the use and production of PPE that conforms to EC standards is something to aspire to in terms of safeguarding workforces, it should be accepted that an infrastructure needs to be in place both to maintain and enforce high standards.

In time, it’s possible – since it’s a well established, tried and tested infrastructure – that the CE marking system becomes a template for developing markets in the Middle East.

With the ultimate aim of keeping your most vital resource – your workforce – safe, you’ll be interested to know that the CE mark is the manufacturer’s claim that their product meets the requirements of the European directive, and that it is illegal to CE mark a product which does not comply with these requirements.

The principles of the existing PPE directive are simple, and could readily be adopted by Middle Eastern manufacturers and, indeed, insisted upon by managers responsible for purchasing safety equipment, including footwear, for their workforce.

The PPE directive defines three categories of products:

Simple design – products for protection against minimal risks (sunglasses, for example)

Complex design – products for protection against dangers which may be fatal or cause serious irreversible injuries (respiratory protection systems, for example) Intermediate design – products which do not fall within either of the above classifications (most safety footwear, for example)

The CE marking process is different for each category. For all categories, conformance to the requirements of the directive must be declared in writing, and a technical file must be compiled (technical files are explained below).

For intermediate and complex design products, an independent assessment of the product is also necessary. This process is called an EC Type

Examination, and usually involves testing against a harmonised European standard in order to prove conformance to the requirements of the directive.

For complex design products only, there is a further requirement that production is independently monitored to ensure that quality levels are maintained after the CE marking license had been granted. This is achieved through regular factory inspections, or approval of a recognised quality control system, by competent authorities.

The vast majority of footwear PPE falls into the intermediate design category. But there are some exceptions, such as footwear for use in dangerous situations, for example, fire fighters’ boots, which normally fall into the complex design category.

CE marking footwear

Footwear PPE products are divided into three classes, depending on the intended use:

• Safety footwear – incorporates toecaps which provide protection from impact energies of up to 200 joules and compression forces of up to 15,000 newtons

• Protective footwear – offers a lower level of protection – impact energies of up to 100 joules and compression forces of up to 10,000 newtons. This standard is to be withdrawn due to improvements in footwear and materials technology, as safety caps now offer the aesthetics of protective ones e.g. they are less cumbersome and fit as well into modern designs

• Occupational footwear – does not provide such protection to the toes but may protect the wearer from risks such as electric shock

Technical files

Following successful completion of the relevant testing programme, a technical file must be compiled and assessed by a Notified Body appointed by the government of an EC member state. The Notified Body has the authority to issue an EC Type Examination Certificate, which is effectively a license to CE mark the product. The technical file is held by the Notified Body until at least 10 years after the last placement of the product(s) on the market.

A technical file is a collection of documents which includes:

• Details of compliance with the health and safety requirements

• Technical specifications of the product(s)

• Details of suppliers of all relevant components

• Test results

• Quality procedures

Upon successful assessment of the technical file, a document called an EC Declaration of Conformity must be submitted to the Notified Body. This is a legally binding document which states that the product is in conformance with the PPE directive. Changes to the product are not permitted without further testing and re-certification.

Other regulations

Manufacturers located outside the European Community (EC) must have an authorised representative established within the EC. As well as the CE mark, various other markings must be present on the footwear, as defined by the relevant harmonised standard.

An information notice to the user must be supplied with each pair of footwear sold. This is a document which explains the protection provided and other details such as care guidelines.

The labeling codes applicable to European safety footwear are:

Certification

Products for which certificates are granted may be CE marked and sold freely throughout the European Community. Under the current version of the PPE directive, certificates remain valid for ten years. This is expected to change when the directive is next revised, possibly reducing the validity limit to five years.

Testing

Footwear must be fit for purpose. This phrase means the product should be fit for all its intended purposes, including any indicated by the retailer. Testing is an important step in proving the fitness of purpose of conventional and safety footwear.

The different classes described above are subject to different testing programmes in accordance with harmonised standards. Within the European Union, safety and occupational footwear is tested against EN ISO 20345:2004 and/or EN ISO 20347:2004 which superseded EN 345 and EN 347 respectively.

Completion of the relevant programme of testing is the first stage in the EC Type Examination. PPE footwear testing should be performed at an accredited laboratory.

Safety footwear component tests – toecaps

Safety boots with toecaps present give added protection to the wearer. This protects the foot from falling objects, crushing injuries, or other hazards.

Although traditionally made of steel, the reinforcement can also be made of a composite material, or a plastic such as thermoplastic polyurethane (TPU).

Steel-toed boots are important in the construction industry and many other industrial settings.

Sample preparation

Sample preparation for Impact Resistance and Compression Resistance is as follows:The specimen is obtained by completely removing the toe portion of the footwear by cutting across the width behind the back edge of the protective toecap, leaving a 3cm gap away from the toecap on the outsole.

A plasticine (modelling clay) cylinder is positioned inside the specimen directly under the point of pressure.

The specimen is placed on the base of the test apparatus in such a way that the central point of test will be the highest point of the toecap. The placement of the plasticine cylinder is determined by the standard and measurements taken from the shoe itself.

Two different types of tests for the toecap are: Impact resistance

This test delivers a sudden blow to the sample and is achieved by impacting the toecap with a specified energy. This impact energy is measured in joules.

The striker has a mass of 20kg and the nose of the impactor is a steel wedge, delivering a total impact energy of 200J.

The test apparatus drops the weight from a specified height of one metre onto the prepared specimen.

Compression resistance

The compression resistance test differs from the impact one by applying a steady and increasing load to the sample using two steel platens until 15,000 newtons is achieved. Once this load pressure has been reached, the measuring process is the same as for the impact test. Obtaining results the toecap testsThe toecap test is performed and the plasticine is carefully removed. The minimum height of the plasticine is measured. This determines if the toecap has fulfilled the Grade or Class requirements of the standard.

Safety footwear component test – outsole

1. Slip resistance

Slip resistance is a critical element of the safety testing of footwear.

As consumers and workers become more aware of their rights, there is an increasing chance of litigation. It is essential that footwear manufacturers test the slip resistance by measuring the coefficient of friction between the sole and different types of flooring.

This key test is in accordance with the British Standard EN ISO 13287- Standard test method for static and dynamic coefficient of friction of materials (slip resistance).

It covers the determination of the coefficients of starting (static) and sliding (dynamic) friction of materials when sliding over other substances at specified test conditions.

The procedure permits the use of a moving sample with stationary plane. The machine used to conduct slip resistance testing incorporates a specially designed control and data acquisition system which provides the test technician with the coefficient of friction for each test performed on each sample. The equipment also provides a graphical representation of the test data.

Measurements of frictional properties may be made on materials when sliding over another substance. The coefficients of?frictions are related to the slip properties of the materials under test. The slip resistance test can determine the anti-slip properties of the safety footwear being tested.

For PPE footwear two types of flooring and lubrication are used. International test standards and methods for assessing slip resistance exist to provide the industry consistent testing and assessments of products. Slip resistance is complex with many variable factors to consider.

Once the results are obtained, they are compared to the requirements and a category of protection is established. The corresponding markings are:

• SRA: the sample is tested against ceramic tile covered with sodium lauryl sulphate

• SRB: the sample is tested against steel covered with glycerol

• SRC: the sample has been tested against both of the above conditions

2. Penetration resistance

As an additional category of protection an insert can be placed in the bottom of the shoe to protect the wearer against sharp objects penetrating through the outsole and injuring the foot. For example, in the construction industry building sites may be littered with sharp nails or screws which could prove to be a potential hazard.

Penetration resistance is performed on safety footwear with steel insert or kevlar inserts. The upper is removed from the sample and the outsole is tested. Four areas of the outsole are tested on each shoe of the pair – inside forepart, outside forepart, centre area, and the heel area. The test is repeated across the size range of the footwear.

The outsole is tested by forcing a test nail with a blunt tip through the outsole and insert until a minimum force of 1100 newtons is reached or exceeded – only then does it pass the test.

The test nail is a calibrated piece of equipment with a minimum hardness of 60 HRC and a diameter of 4.5mm. The test continues until the sole is completely penetrated by the test nail, with the maximum force recorded, using a piezoelectric cell.

The shoe must also conform to design requirements such as size – to ensure it covers the bottom area of the foot, flexing – ensuring continued durability and corrosion, to stop the material degrading over time.

The tongue label will have the letter ‘P’ or ‘S3’ marked on it. This informs the customer the necessary category of protection has been met.

Safety footwear test – whole shoe

Antistatic test

Antistatic is an additional category of protection denoted by the letter ‘A’ or S1, S2 or S3 on the tongue label.

Antistatic footwear allows the dissipation of electrostatic charge through it and avoids the risk of spark ignition when dealing with flammable substances, vapours or explosives.

Because atmospheric conditions can affect the electrostatic build up within the footwear, the shoe is conditioned in very moist (85% relative humidity) and very dry (30% relative humidity) atmospheres before testing to ensure the boots work in variable conditions.

Then the resistance is checked and compared to the requirements of 100 KΩ to 1,000 MΩ. Anything above or below this will fail the test.

The equipment used to measure the electrical resistance should be capable of measuring an accuracy of 2.5% while applying a voltage of 100 V DC (voltage of direct current).

The sample is rested on a copper contact base plate which houses the external electrode. The shoe is filled with a total mass of 4kg of stainless steel balls/ball bearings (which conform to ISO 3290).

The internal electrode is rested in the forepart area, as forward as possible, nestled within the steel balls. (See picture for demonstration of set-up). The test voltage of 100 V DC is applied between the copper plate and the steel balls for one minute before recording the electrical resistance of the footwear sample.

Testing against the existing standards for the EU involves assessment not only of the protective features, but also of durability and user comfort.

Most of the main components must be tested and the majority of the tests are performed three times to cover the size range of the product. The number of samples required to complete the testing varies depending on the exact nature of the product, but typically nine pairs is sufficient (three pairs of the smallest size in the size range, three pairs of the largest size and three pairs of a middle size).

Safety footwear specimens should be re-tested for classification for any of the following changes: change in materials, cap manufacturer, design of toecap, construction method used to make the footwear, upper or insole material thickness greater than 25% of soling system, hardness in the outsole and shape of last used in the manufacturing of the footwear.

For the European and North American (the USA and Canada) markets, suppliers must meet legal obligations required of them to place only safe products on the market. Other regions of the world appear to be following suit. ?

Author

Raj Gohil, Commercial Manager, Footwear, Intertek Raj has worked within the footwear sector for more than 20 years. His vast experience within the industry includes pattern cutting, designing, quality control processes, testing, inspecting and manufacturing.

He has travelled to factories in China and India to witness offshore production first hand. In addition, Raj has many years of experience with a broad and diverse range of footwear, leather goods and safety footwear tests and testing. He is also a long-standing member of the MSSF (Member of Society of Shoe-Fitters).

About Intertek

Intertek is the global leader in Personal Protective Equipment (PPE) testing and certification of products, such as safety footwear, fire-fighting apparel, respiratory apparatus, and helmets.

Intertek is accredited by the Standards Council of Canada (SCC), and is recognised by OSHA. It has performed evaluations in accordance with such standards as ANSI, ASTM, NFPA, CPSC, EN, CSA, SAE, AS and ISO.

For more information visit www.intertek.com/consumergoods

Published: 01st May 2011 in Health and Safety Middle East

Share this article

ABOUT THE AUTHOR

Raj Gohil

Visit Website

POPULAR POSTS BY Raj Gohil

Article

Safety Footwear [May 2011]

Get email updates

Sign up for the HSME newsletter

Keep up-to-date through the power of email with the region's only industrial health and safety magazine - delivering the latest news and products to satisfy all your occupational safety needs.
  • This field is for validation purposes and should be left unchanged.

FEATURED ARTICLES

Advertisement

SOCIAL MEDIA

HSME on Facebook

https://www.facebook.com/HSMEMagazine/

Advertisement

SOCIAL MEDIA

HSME on Twitter

hsmemagazine HSME Magazine @hsmemagazine ·
1 Feb

isafe MOBILE announces the immediate availability of the world’s first 5G smartphone for ATEX and IECEx zone 1/21.

The IS540.1 is available immediately, find out more today: https://www.hsmemagazine.com/press-release/is540-1-available-now/

#hsmemagazine #isafeMOBILE #ATEX #IECEx

Reply on Twitter 1620747838971088898 Retweet on Twitter 1620747838971088898 Like on Twitter 1620747838971088898 2 Twitter 1620747838971088898

Advertisement

SUBSCRIBE

Stay up to date with our newsletter

Keep up-to-date through the power of email with the region’s only industrial health and safety magazine – delivering the latest news and products to satisfy all your occupational safety needs.

 

This field is for validation purposes and should be left unchanged.

Subscribe

SUBSCRIBE TO HSME MAGAZINE

5 reasons to subscribe to our digital and print package

  • Stay up to date from anywhere in the world, with instant access to the latest issue straight from your phone, tablet or laptop.
  • Trust that you’re getting the best content from our range of internationally accredited authors.
  • Get full access to our archives and see how occupational safety has evolved with us over the years.
  • Enjoy our monthly newsletter curated with up-to-the-minute news and a selection of editor’s top picks.
  • Hot off the press and straight to your door – look forward to your own glossy copy of HSME, delivered five times a year
Subscribe View Subscription levels

STAY SAFE & INFORMED

Subscribe to the best health & safety articles, news, products and regulations

Find out more

Stay up to date with our newsletter

  • This field is for validation purposes and should be left unchanged.

ABOUT

  • About HSME
  • Advertise
  • Contact Us

YOUR ACCOUNT

Sign In Register Account Subscribe to HSME

RESOURCES

Request Media Pack

CONNECT

ACCREDITATIONS

Copyright Bay Publishing 2023. All Rights reserved.

Designed & Built by:
  • Terms & Conditions
  • Privacy Policy
  • Cookie Policy
We use cookies on our website to give you the most relevant experience by remembering your preferences and repeat visits. By clicking “Accept”, you consent to the use of ALL the cookies.
Cookie settingsACCEPT
Manage consent

Privacy Overview

This website uses cookies to improve your experience while you navigate through the website. Out of these, the cookies that are categorized as necessary are stored on your browser as they are essential for the working of basic functionalities of the website. We also use third-party cookies that help us analyze and understand how you use this website. These cookies will be stored in your browser only with your consent. You also have the option to opt-out of these cookies. But opting out of some of these cookies may affect your browsing experience.
Necessary
Always Enabled
Necessary cookies are absolutely essential for the website to function properly. These cookies ensure basic functionalities and security features of the website, anonymously.
CookieDurationDescription
cookielawinfo-checbox-analytics11 monthsThis cookie is set by GDPR Cookie Consent plugin. The cookie is used to store the user consent for the cookies in the category "Analytics".
cookielawinfo-checbox-functional11 monthsThe cookie is set by GDPR cookie consent to record the user consent for the cookies in the category "Functional".
cookielawinfo-checbox-others11 monthsThis cookie is set by GDPR Cookie Consent plugin. The cookie is used to store the user consent for the cookies in the category "Other.
cookielawinfo-checkbox-necessary11 monthsThis cookie is set by GDPR Cookie Consent plugin. The cookies is used to store the user consent for the cookies in the category "Necessary".
cookielawinfo-checkbox-performance11 monthsThis cookie is set by GDPR Cookie Consent plugin. The cookie is used to store the user consent for the cookies in the category "Performance".
viewed_cookie_policy11 monthsThe cookie is set by the GDPR Cookie Consent plugin and is used to store whether or not user has consented to the use of cookies. It does not store any personal data.
Functional
Functional cookies help to perform certain functionalities like sharing the content of the website on social media platforms, collect feedbacks, and other third-party features.
Performance
Performance cookies are used to understand and analyze the key performance indexes of the website which helps in delivering a better user experience for the visitors.
Analytics
Analytical cookies are used to understand how visitors interact with the website. These cookies help provide information on metrics the number of visitors, bounce rate, traffic source, etc.
Advertisement
Advertisement cookies are used to provide visitors with relevant ads and marketing campaigns. These cookies track visitors across websites and collect information to provide customized ads.
Others
Other uncategorized cookies are those that are being analyzed and have not been classified into a category as yet.
SAVE & ACCEPT