HHww Multinorm Collection EN by HH Workwear

MULTINORM COLLECTION

A GUIDE TO ELECTRIC SAFETY AT THE WORKPLACE CONFIDENT WHEN IT MATTERS

14058 EN EN 470-1 14058 EN 471 470-1 EN EN EN 470-1 ISO 11611 EN 1149-5 ISO 11611 EN EN ISO 11611 531 13034 EN EN 531 343 EN EN 531 ISO 11612 533 EN EN ISO 342 11612 EN EN ISO 11612 61482-1-2 ISO 14116 EN 61482-1-2 14058 EN 471 61482-1-2 EN EN 471 470-1 EN 471 1149-5 EN EN 1149-5 ISO EN 11611 EN ISO 20471 13034 1149-5 EN EN 13034 531 EN 533 13034 EN EN 533 ISO 11612 EN 533 ISO 14116 EN ISO EN 14116 61482-1-2 EN ISO 14116 EN 471 EN EN 1149-5 ISO 20471 EN ISO 20471 EN EN 13034 ISO 20471 EN 533

A QUICK REFERENCE GUIDE TO EN STANDARDS PROTECTION AGAINST HEAT AND FLAME The heat and flame standards specify

protection against heat and flame,

requirements and test methods

protect against convective and radiant

for the work clothing to provide

heat, sparks, molten metal etc.

PROTECTION AGAINST STATIC ELECTRICITY Electrostatic discharges might be the

methods and requirements for fabrics

source for flash fires in flammable

to provide decay of undesirable static

or explosive atmospheres. The static

electricity in the clothing to prevent

electricity standards specify test

sparks and ignition of gases.

PROTECTION AGAINST ELECTRIC ARC FLASH An electric arc generates extreme

protect against the heat and ensure

heat and various other hazards.

that the consequences for workers,

The electric arc flash standards set

after exposure to electric arcs, will not

requirements for the clothing to

be aggravated by the clothing itself.

HIGH VISIBILITY CLOTHING Low visibility day or night increases

user under any light condition by day

risk for accidents. The standard sets

and under illumination by vehicle

requirements for protective clothing

headlights in the dark.

to provide conspicuousness of the

(EN 471 is replaced by EN ISO 20471)

EN ISO 14116

PROTECTION AGAINST FOUL WHEATHER EN 343

The foul weather standard specifies

influence of precipitation. The standard

requirements and test methods

defines various levels of water vapor

EN 342

applicable to materials and seams

transmission, often referred to as

of protective clothing against the

breathability, and water tightness.

EN EN ISO 343 343 20471 EN 14058 EN EN 342 342 EN 470-1 EN EN 14058 14058 EN ISO 11611 EN EN 470-1 470-1 EN 531 EN EN ISO 11611 ISO EN 11611 ISO 11612 EN EN 531 531 EN 61482-1-2 EN EN ISO 11612 ISO EN 11612 471 EN EN 61482-1-2 61482-1-2 EN

PROTECTION AGAINST COOL TEMPERATURES The cool weather standard specifies

protection against moderate low

requirements and test methods for

temperatures.

performance of single garments for

Keep this fold open too see applicable standards for each segment

See detailed specifications on page 44.

DRY.WARM.SAFE. AT WORK Heat and flame caused by an electric arc or hydrocarbon

Industrial heat and flame hazards are mainly a

flash fire may cause fatal burns. Electrostatic discharges

concern at workplaces in the electric utilities,

may initiate explosive fires. Consequently, work

oil & gas and chemical process industries

clothing should be designed to protect and minimize the

where the potential exists for encounter

consequences of such hazards and not be a source for

electric arc, petrochemical, or related high

severe burns. High performance safety clothing should not

heat and flame exposures. HH collections

ignite nor melt nor drip, insulate against extreme heat as

comply with the relevant standards for these

well as discharge static electricity.

industries.

The modular HH FR 3-Layer Concept for Work Zone Comfort

Workwear should further provide an

& Hazard Management offers a unique flexible System of

optimization of foul- and cold weather

Dress optimizing user comfort and protection.

protection, heat balance and moisture transportation, non-flammability, thermal insulation, and 360 degree visibility to keep employees productive, comfortable and as safe as possible at the workplace. A modular and interactive concept offers high performance and the flexibility as the job situation may require. FR Baselayer, FR Thermal layer and FR Protective layer work together in a way that each layer separately can provide sufficient protection as prescribed by the hazard analysis, or the combination of 2 or 3 layers will meet or supersede the requirements with sufficent margins of safety over the recommended protection.

3 33

3 LAYER SYSTEM 3 LAYER SYSTEM 3 LAYER SYSTEM

LAYER LAYER LAYER SYSTE SM YSTEM

BASE LAYER BASE LAYER BASE LAYER

SYSTEM

INSULATION LAYER INSULATION LAYER INSULATION LAYER

PROTECTIVE LAYER PROTECTIVE LAYER PROTECTIVE LAYER

3LAYER 3LAYER SYSTEM

SYSTEM

PROTECTIVE LAYER INSULATION LAYER BASE LAYER

PROTECTIVE LAYER

3-LAYER SYSTEM FR

3LAYER 3LAYER SYSTEM

SYSTEM

The modular HH FR 3-layer system for work zone comfort and hazard management offers a unique flexible system which gives comfort when you are exposed to cold, wind, rain and snow as well as protection against the hazards of heat and flame exposure.

PROTECTIVE LAYER INSULATION LAYER BASE LAYER

PROTECTIVE LAYER INSULATION LAYER BASELAYER

DRY. HH baselayer ventilates excess heat and transports perspiration and moisture away from the skin into the next layer of clothing while keeping your body dry and warm.

MIDLAYER

WARM. Helly Hansen thermal midlayer traps air and insulates against cold while ventilating excess heat and allowing moisture to pass through the fabric substrate. The body stays dry and warm.

PROTECTIVE LAYER

SAFE. Helly Hansen Helly Tech速 waterproof and breathable fabric protects against rain and wind while allowing moisture to evaporate through the pores of the breathable microporous or hydrophilic membrane. The body stays dry and warm.

BASE LAYER

MULTINORM PROTECTIVE WORKWEAR

COLD, WIND, RAIN AND SNOW Cold, wind, rain and snow at the workplace reduce the comfort level and the concentration and might have fatal consequences.

ELECTRIC ARC FLASH An electric arc flash is a hazard when working close to high voltage in electric distribution, maintenance etc.

ELECTROSTATIC DISCHARGE An electric discharge is a hazard when working with petrol and in gaseous environments in chemical plants etc.

HYDROCARBON FLASH FIRE A hydrocarbon flash fire is a hazard when working in the oil and gas industry.

CONTENTS

PAGE

3-LAYER SYSTEM FR 04 WORKPLACE HAZARD & RISK ASSESSMENT 08 HEAT & FLAME FLASH FIRE 10 ELECTRIC DISCHARGE 12 ELECTRIC ARC FLASH 14 HAZARD RISK CATEGORIES 16 HIGH VISIBILITY 18 WIND, WET & COLD 20 FR BASELAYER 22 75069 FAKSE POLO

75068 FAKSE T-SHIRT

79873 FAKSE TWO LAYER BALACLAVA

75076 FAKSE LS CREW NECK

75468 FAKSE BOXER

79871 FAKSE LONG NECK

75075 FAKSE SHIRT

75720 FAKSE SOCK

79870 FAKSE NECK

75475 FAKSE PANT

79872 FAKSE ONE LAYER BALACLAVA

FR INSULATION LAYER (FIBRE PILE & THERMAL ZIP-IN) 28 72225 BADEN JACKET

72425 BADEN PANT

73227 LYSEKIL INSULATOR

FR PROTECTIVE LAYER 32 76072 ABERDEEN JACKET

76476 ABERDEEN CONSTR. PANT C. 2

76475 ABERDEEN PANT CL. 2

76479 ABERDEEN PANT CL. 1

76480 ABERDEEN CONSTR. PANT CL. 1

FR WATERPROOF & BREATHABLE LAYER 36 71145 WOLFSBURG PARKA

71327 ROTHENBURG JACKET

71146 WOLFSBURG JACKET

71427 ROTHENBURG PANT

71449 WOLFSBURG PANT

FR WATERPROOF LAYER 40 70005 ASKER JACKET

70172 LILLEHAMMER JACKET

70405 ASKER PANT

70472 LILLEHAMMER BIB

EU STANDARDS 44 US STANDARDS 48 SIZE CHART 51 CHEMICAL COMPATIBILITY PVC/PU COATED FABRICS 52 A GUIDE TO IDENTIFY APPROPRIATE CERTIFIED FR PROTECTIVE CLOTHING 53

HHWORKWEAR.COM

To the best of our knowledge, the information contained herein is accurate. However, Helly Hansen assumes no liability whatsoever for the accuracy or completeness of the information provided. The collection is subject to continuous development, therefore design and specification of the actual collection might deviate from the information contained herein. Please check the information accompanying the specific garment before use. We have described certain hazards, but we cannot guarantee that these are the only hazards relevant to the potential use of the garment.

BREAKDOWN OF THE WORKPLACE. The process of conducting a workplace hazard and risk assessment begins with identifying hazardous elements that might be present on site â&#x20AC;&#x201C; see table 1.

WORKPLACE HAZARD AND RISK ASSESSMENT It is important to define the specific sector of the workplace making this assessment because the hazards and protection needs will change with the location or the function of the worker. Some companies find it helpful to designate areas and conduct an assessment by each area. Other companies choose to determine the different types of function that workers engage in and make their assessment by worker function. The best way to decide which system to use is to determine which approach will result in changes in the type of personal protective equipment or use of safety practices that will be required for the specific job/task or location. IDENTIFICATION OF HAZARDS. It is important to determine all the hazards that might be present in a specific workplace or for a particular workplace area. Some hazards might be obvious; others are not. In addition, some hazards can affect certain parts of the body and not others. For example, impact hazards from falling objects are usually attributed to the head and the feet. There are some hazards that occur depending on the position of the individual worker, such as oncoming traffic and hazards associated with the wearing of protective equipment, such as heat stress. Hazards are present in a number of forms as shown in Table 1. One way to identify hazards is to look at injury or accident reports to determine what events may have happened in the past or to look at facilities that have already conducted a hazard assessment in order to determine if any similar assessments may have been performed.

ESTIMATION OF EXPOSURE LIKELIHOOD. One of the components of risk is the likelihood that exposure will occur. This is the probability that a worker will be exposed. It has to be based on an estimate (again, accident history might be useful input), but it requires a judgement as to how frequently or how long the worker might be exposed. A useful approach in estimating this occurrence is to numerically rate that likelihood. One suggested system is provided below: Rating 0 1 2 3 4 5

Likelihood of Exposure Exposure cannot occur Exposure very unlikely Exposure possible, but unlikely Exposure likely Multiple exposures likely Continuous exposure likely

DETERMINATION OF POSSIBLE EXPOSURE CONSEQUENCES. The other component of risk is the consequences of exposure. This represents what happens and can range from mild effects to catastrophic health issues or even death. As with exposure likelihood, it is possible to rate the consequences as means of determining their potential severity. One suggested system is provided below: Rating 0 1 2 3 4 5

Consequences of Exposure No effect Temporary effect on worker (such as discomfort) with no long term effects Exposure results in temporary, treatable injury Exposure results in serious injury with loss of work time Exposure results in permanent debilitating injury Exposure results in likely death

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RISK ASSESMENT

ASSIGNMENT OF RISK. The assignment of risk is the ratio between exposure of the hazard and the time of exposure with respect to the consequences of this. In a numerical approach, risk can be quantified for comparison purposes by multiplying a rating for likelihood of exposure by the rating for consequences of exposure. The higher the product of these two ratings, the greater the risk. Yet, this relationship also demonstrates how relative risk must account for both likelihood and consequences. A very hazardous exposure might exist, but the risk can be low if the exposure is very unlikely. Likewise, a risk can also be relatively low if exposure is continuous but the effects are minimal or temporary. By determining the risk for each hazard, the risks can be ranked in terms of protection priorities. EVALUATION OF SAFETY PRACTICES THAT CAN REDUCE HAZARD EXPOSURE. It is important to recognize that PPE is actually the last defense for protection of workers. Most employers strive for work conditions that are not hazardous and use either administrative controls, to limit contact of workers with hazards, or design equipment or processes that may also reduce the likelihood of worker exposure. These approaches should be considered first in developing a personal protection plan. Nevertheless, there are circumstances when administrative or engineering controls cannot be employed. For example, an individual who has to work outside under extreme weather conditions must be afforded some form of PPE. ESTABLISHMENT OF APPROPRIATE PPE. Once the hazards have been identified and risks have been assigned for each hazard, and any opportunity to eliminate or engineer the hazard has been considered, the employer must determine appropriate PPE for workers who may be exposed. Generally this process involves selected items of PPE that protect against the hazards with the highest assigned risk by looking for specific features and performance properties that address the respective hazards. For some industries, this may be simplified when there are standards that can be applied to demonstrating the performance of PPE and other standards that relate to the selection and use of PPE. One example of complimentary standards is for electric arc protection. When a hazard and risk assessment is made, it is important that the assessment is documented so that it can be reviewed and used to justify PPE selection decisions.

TABLE 1 * PHYSICAL HAZARDS • Falling objects • Flying debris • Projectiles or ballistic objects • Abrasive or rough surfaces • Pointed objects • Sharp edges • Slippery surfaces • Excessive vibration ENVIRONMENTAL HAZARDS • High heat and humidity • Ambient cold • Wetness • High wind • Insufficient or bright light • Excessive noise THERMAL HAZARDS • High convective heat • Low radiant heat • High radiant heat • Flame impingement • Steam • Hot liquids • Molten metals • Hot solids • Hot surfaces BIOLOGICAL HAZARDS • Bloodborne pathogens • Airborne pathogens • Biological toxins • Biological allergens

CHEMICAL HAZARDS • Inhalation • Skin absorption or contact • Chemical ingestion or injection • Liquefied gas contact • Chemical flashovers • Chemical explosions ELECTRIC HAZARDS • High voltage • Electric arc flashovers • Static charge build up RADIATION HAZARDS • Ionizing radiation • Non-ionizing radiation PERSON-POSITION HAZARDS • Daytime visibility • Night time visibility • Falling (elevated platforms) • Drowning PERSON-EQUIPMENT HAZARDS • Material biocompatibility • Ease of contamination • Thermal comfort • Range of motion • Hand function • Ankle and back support • Vision clarity • Communication ease • Fit (poor) • Ease of donning and doffing

* Not intended to provide a comprehensive list of all hazards. Some hazards may require further differentiation in terms of severity of the specific type of agent/substance encountered. Helly Hansen does not provide products from each of these hazards.

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN

470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 343 11612 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN 14116 ISO 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN ISO 14116 ISO 20471 EN EN 533 1149-5 533 EN EN ISO 14116 EN 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 ISO 20471 EN 342 EN EN ISO 14116 14058 14058 EN EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN ISO 11611 ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN ISO 11612 ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN ISO 14116 ISO 14116 EN EN ISO 14116

EN EN ISO 20471 ISO 20471 EN ISO 20471

Heat and flame are hazards prevalent in most industrial situations. Negligence of this fact represents a hazard for the worker and a liability for the employer.

HEAT & FLAME FLASH FIRE Hazards due to heat and open flames require use of protective flame resistant clothing. General performance criteria are no flaming to top or sides of the fabric sample, no hole formation, no melting and dripping, no flaming or melting debris, no after flame- and afterglow time. The EN symbol on the garment label contains information so that the user can select workwear that protects against the relevant hazard at his or her workplace. A risk analysis should be undertaken to identify such hazards and held it up against hazards covered by the EN certification.

1. For workers frequently in a job zone with permanent risk for exposure to heat and flames protective clothing certified to comply with EN 11612 should be worn. • • • • • •

imited flame spread - look for Code A Index 3 L Convective heat – look for Code B certification Radiant heat – look for Code C certification Molten iron splashes – look for Code E certification ontact heat – look for Code F certification C

Index 1–3 behind the letter indicates protection level where 3 is the highest protection level. 2. For workers more randomly exposed to small igniting flames garments made of fabrics certified to comply with EN ISO 14116 might be sufficient if no presence of another type of heat. • L imited flame spread is tested in accordance with EN 15025 method A1-Index 1

LIMITED FLAME SPREAD

FAQ: Is there a special EN standard applied for protective garments to be used during welding? A: Yes, the standard is EN 11611. This type of clothing is intended to protect the users body against small splashes of molten metal, short contact time with flame and radiant heat. It also reduces the possibility of electric shock by short term, accidental contact with live electric conductors at voltages up to approximately 100V under normal conditions of welding.

INDEX 1

INDEX 2

INDEX 3

Flaming to top or sides

Flaming debris

Afterglow moves into the undamaged area

Hole formation

Yes

Afterflame time

No requirement

< 2s

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FAKSE ASKER

CLOTHING WHICH IS MADE OF MATERIAL WITH A LIMITED FLAME SPREAD (EN 15025 INDEX 1) MUST NOT BE WORN DIRECTLY AGAINST THE BODY. IN ORDER TO ACHIEVE SUFFICIENT PROTECTION, UNDERGARMENTS WITH INDEX 2 OR 3 SHOULD BE WORN UNDERNEATH INDEX 1 OUTER LAYERS.

FAQ: Are flame resistant properties permanent so that the garment maintains the functionality during itâ&#x20AC;&#x2122;s lifetime? A: EN certified garments are permanently flame resistant over the intended lifetime of the garment, see information on garment labels. Some fibers are inherently flame resistant; other fibers are treated to maintain these properties after wash and wear. It is important to keep the work clothing clean and free from dust and dirt and grease etc. that might reduce the flame resistant properties.

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN

470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 343 11612 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN ISO 14116 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN ISO 14116 ISO 20471 EN EN 533 1149-5 533 EN EN ISO EN 14116 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 20471 ISO EN 342 EN EN 14116 ISO 14058 14058 EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN 11611 ISO ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN 11612 ISO ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN 14116 ISO ISO 14116 EN EN ISO 14116

EN EN 20471 ISO ISO 20471 EN ISO 20471

Undressing, walking across an insulating floor, friction between garments or fabric layers, arising from a chair or touching charged equipment or materials may cause charging of the body.

ELECTRIC DISCHARGE The human body can, if insulated from earth, accumulate electrostatic charge. A person could charge the clothing as much as 30 000V when no grounding is provided, resulting in a hazardous condition with risk of an electrostatic discharge. Electrostatic dissipative protective clothing (ESD clothing) should be worn to avoid incendiary discharges when working with chemicals, petroleum etc. In a flammable or explosive atmosphere use of protective footwear with grounding to the earth is always recommended. ALERT! WORKING IN GASEOUS ENVIRONMENT WORKING IN A DRY AND COLD ENVIRONMENT WEARING WORKWEAR GARMENTS WITH HYDROPHOBIC (NON-WATER ABSORBING) FIBERS LIKE ARAMID, MODACRYLIC ETC. USING NON GROUNDED FOOTWEAR (ELECTRICALLY CONDUCTIVE OR STATIC DISSIPATIVE SHOES) WORKING IN AN ENVIRONMENT WITH HIGH LEVEL OF AIRBORN DUST SOLUTIONS:

A surface conducting fiber is exposed to the surface whereas a core conducting fiber is encapsulated in a non-conducting material

Carbon fibre Nylon/Polyester

BELLTRON® FIBER CROSS SECTION 12

woven into the fabric substrate. Both provide charge decay or migration of charge across or through the material, and supplements ESD footwear in highly explosive atmospheres. Clothing made of yarns with carbon fibers provides a continuous current decay to the surrounding air - for instance Belltron®. Clothing made of yarns with conductive steel fibers provides grounding when in contact with fixed installations - for instance Bekinox®. Some materials want to give away electrons and other materials want to receive electrons producing electricity between the materials. This phenomenon can occur when the two materials rub against each other (triboelectric charging). The body may also be charged by an induction effect receiving charge from other objects. Electro Static Discharge (ESD) is the transfer of charge from one object to another., which results in an electric current. An electrostatic discharge might cause a flash fire in a flammable or explosive atmosphere. The risk is higher in a dry and cold condition because this environment has low humidity and moisture adds conductivity to the environment. The risk is also higher when using clothing made of synthetic fibers that do not absorb moisture. Grounding is provided by using satisfactory amount of fibers (1–5%) that provide decay of electrostatic electricity.

Steel fibre

BEKINOX® FIBER CROSS SECTION

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EN 1149 is a series of test methods and requirements for electrostatic properties of protective clothing due to the differing fields of application and materials.

EN 1149-1

EN 1149-1 Test method and requirements for measurement of the surface resistivity of a material (ohms). This standard is not applicable for core conductors EN 1149-2 Test method for measurement of the electric resistance through a material i.e. vertical resistance (ohms) EN 1149-3 Test method for measurement of charge decay (time and shielding factor) EN 1149-4 Garment test under development EN 1149-5 Performance requirements that have to be fullfilled by a certified electrostatic dissipative material 13

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN

470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 343 11612 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN ISO 14116 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN ISO 14116 ISO 20471 EN EN 533 1149-5 533 EN EN ISO EN 14116 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 20471 ISO EN 342 EN EN 14116 ISO 14058 14058 EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN 11611 ISO ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN 11612 ISO ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN 14116 ISO ISO 14116 EN EN ISO 14116

EN EN 20471 ISO ISO 20471 EN ISO 20471

An electric fault arc is one of the deadliest and least understood hazards of electricity, and is prevalent in most industrial situations where electric devices are utilized.

ELECTRIC ARC FLASH Arc protective clothing shall prevent a second degree burn when exposed to an electric fault arc. In order to ensure that adequate protective clothing is worn, a workzone hazard analysis should be undertaken to assess and quantify the potential electric arc energy (Warc) and/or heat flux a worker might be exposed to. Based upon this assessment appropriate protective clothing should be chosen accordingly. The International Social Security Association has provided a comprehensive guideline for choosing personal protective equipment when exposed to the thermal effects of an electric fault arc. EN certified arc protective garments are tested to comply with the criteria as set forth by EN 614821-2 Box test whereby garments are exposed to a directed electric arc. This test classifies garments according to their resistance and their ability to protect against the heat generated by an electric arc of 4 kA or 7 kA for 0.5 seconds. Garments are then declared as Class 1 or Class 2 respectively. Compliance with this standard further supports compliance with the Council Directive 89/686 A guide for selecting Class 1 or Class 2 protective clothing when working with low voltage (LV) power equipment is given on page 17. It is the responsibility of the employer, user or both to verify whether the potential exposure is more than 4 kA, for which situations a Class 2 outfit should be worn.

NFPA 70E is the US standard for electric safety at the workplace. This standard has a lot in common with EN 61482-1-1 Open Arc test, and provides an alternative or supplementary guide to electric safety.

The temperature within an electric arc is extreme and can reach 5 000°C.

Standard compliance assumes • Burning time <5s • No melting through to the inner side • No hole bigger than maximum 5mm in every direction in the innermost layer • Maximum temperature rise at maximum below the Stoll curve at the backside of the specimen for all 8 measured values If the potential exposure is more than 7 kA the protective outfit should be supplemented; use of arc protective baselayer and/or midlayer will enhance the protection level. Arc protective work clothing can also be tested in accordance with EN 61482 1-1 Open Air test to provide supplementary data on protection against heat flux or ability to block heat. This standard measures the actual arc rating of the garment as ATPV value (Arc Thermal Performance Value). The US standard for Electric Safety in the Workplace NFPA 70E corresponds closely to EN 61482 1-1. The NFPA 70E recommends protection levels for various Hazard Risk Categories 1–4 (see page 16) derived from a 4 derived from a prescribed hazard analysis, and is a very useful guide for choosing appropriate protection when the necessary cal value is estimated. The thermal energy released in an electric arc flash is expressed in calories per centimeter squared (cal/ cm2). A typical electric arc flash can release energy levels from 4 cal/cm2 to 30 cal/cm2 and exposures between 30 cal/ cm2 and 60 cal/cm2 are not uncommon.

FAQ: What is an electric arc? A: An electric arc is generated by gas ionization arising from an unintended electric conduction between electrodes as for instance line conductors or between a line conductor and the earth path of an installation or an electric device.

current kA

BASE LAYER

PROTECTIVE LAYER

INSULATION LAYER

HRC level

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KiloAmpere

3LAYER 3LAYER

INCREASE ARC FLASH PROTECTION WITH LAYERING

SYSTEM™

WOLFSBURG

FAKSE

ABERDEEN

PROTECTIVE LAYER WOLFSBURG INSULATION LAYER

FAKSE

BASELAYER

ABERDEEN

PROTECTIVE LAYER

BASE LAYER

LAYERING

PROTECTIVE LAYER INSULATION LAYER

AS A GENERAL GUIDELINE HELLY HANSEN RECOMMENDS 1. Always wear Class 1 or higher arc protective garments even when working with Low Voltage (LV) electric equipment 2. Always wear Class 2 outfit when working with Medium- and High Voltage MV/HV equipment for instance by wearing arc protective baselayer or midlayer underneath 3. Always wear arc resistant long sleeve underwear and/or midlayer (if the weather conditions allow it) to enhance the protection to avoid a second degree burn if an electric fault arc should occur

BASE LAYER

The HH FR/ARC concept is to offer a modular and flexible clothing system with lightweight outerwear complying with Class 1 or HRC 2 category respectively and supplement when required with arc protective baselayer and/or thermal layer taking the clothing system to the next category of protection, see details on the following pages.

4. N ever use flammable synthetic underwear or shirts underneath 5. P rotect head, neck, hands and arms as these parts of the body are exposed the most

FAQ: Is the EN arc symbol a guarantee for adequate arc protection? A: Yes, the employer shall analyze and quantify the potential exposure to an electric arc and specify the necessary protection to be provided by the clothing expressed as kA or cal/cm2 • Class 1 for 4 kA exposure; Class 2 for 7 kA exposure, and/or • HRC 1 outfit for 4 cal/cm2; HRC 2 outfit for 8 cal/cm2; HRC 3 outfit for 25 cal/cm2 etc. FAQ: What is the Stoll curve? A: The body can adjust to heat/duration of the heat within certain limitations before suffering a second degree burn. The Stoll curve explains the relationship between heat and the duration of the exposure before resulting in second degree burns. Garments shall provide protection below the Stoll curve to prevent burns.

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN

470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 343 11612 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN ISO 14116 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN ISO 14116 ISO 20471 EN EN 533 1149-5 533 EN EN ISO EN 14116 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 20471 ISO EN 342 EN EN 14116 ISO 14058 14058 EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN 11611 ISO ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN 11612 ISO ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN 14116 ISO ISO 14116 EN EN ISO 14116

EN EN 20471 ISO ISO 20471 EN ISO 20471

NFPA 70E uses same test method (ASTM 1959) as applied by the EN 61482-1-1 Open Arc test, and is used as guidance for selecting arc protective clothing when cal/cm2 is the relevant criteria for possible exposure.

HAZARD RISK CATEGORIES

To ensure electric safety at the workplace a hazard and risk assessment should be undertaken. NFPA 70E prescribes a flash hazard analysis to be done in order to protect personnel from the possibility of being injured by an arc flash. The analysis must determine the Flash Protection Boundary and the personal protective equipment that people within the Flash Protection Boundary must use.

ARC THERMAL RATING (ATPV) is defined in the test method ASTM F1959, a test method for measuring electric arc protection, as the incident energy (cal/cm2) on a fabric or material that results in sufficient heat transfer through the fabric or material to cause the onset of a second-degree burn based on the Stoll curve. In other words, ATPV is the amount of energy it takes to cause a burn injury to the user of the clothing. In 50% of the cases, the user is protected from burn injuries.

NFPA 70E defines HAZARD RISK CATEGORIES (HRC) and specify certain Protective Systems to be used for the various Categories.

ESTIMATED BREAK-OPEN THRESHOLD (EBT) is defined in ASTM F1959 as the average of the five highest incident energy exposure values below the Stoll curve where the tested specimens do not show break open of the fabric. EBT is reported when ATPV cannot be measured due to FR fabric break open. It is related to the effect on the fabric, not the person, and is the amount of energy that the clothing can protect against without failure more than half of the time.

Hazard/Risk Category

Required Minimum Arc Rating of PPE Cal/cm2

N/A

4 Cal/cm2

8 Cal/cm2

25 Cal/cm2

40 Cal/cm2

HEAT ATTENUATION FACTOR (HAF) is a separate measurement made in electric arc testing. It is defined as the percentage (%) of the incident energy that is blocked by a material at a level of energy applied that is equal to the arc rating. Higher HAF percentages indicate better overall insulation. In a layering concept, the effective ATPV value often replaces the sum of each layer as the air trapped between the layers add to the thermal insulation; this effect is not included in the data published.

HHWORKWEAR.COM

GUIDE FOR SELECTING APPROPRIATE CLASS 1 OR CLASS 2 PROTECTION WHEN WORKING WITH LOW- AND MEDIUM VOLTAGE EQUIPMENT ISSA INTERNATIONAL SOCIAL SECURITY ASSOCIATION

Measurement and control installations, fuse up to 16 A

Power or energy control and metering installations, fuse rating up to 100A

Approaching of voltage and phase detectors

Class 1

Approaching of test, measuring and adjustment items

Inserting and removing of NH fuse cartridges being not protected against direct touching

Cables, control boards and switchgear assemblies

Overhead lines

Class 1

Class 1 or 2 depending on arc energy

Class 1

Class 1 or 2 depending on arc energy

Class 1

Class 1 or 2 depending on arc energy

Test activities for fault identification and location in auxiliary electric circuits

Class 1

Class 1 or 2 depending on arc energy

Functional checks of devices and installations, setting into operation and testing depending on arc energy

Class 1

Class 1 or 2 depending on arc energy

Control, maintenance and replacement activities

Class 1

Class 1 or 2 depending on arc energy

Switching activities in connection with the 5 safety rules

Class 1

Class 1 or 2 depending on arc energy

Live working such as connecting, mounting, montage and de-montage, prepartion, oiling, covering, cleaning**

Class 1

Class 1 or 2 depending on arc energy

Type of Equipment *

Building installations, fuse ratings up to 63 A

Work activity *

* **

valid for power equipment in LV systems (UrN up to 1000 V AC) work activities belonging to are mounting of cable branch-T for house connection, montage/de-montage of single fuse-link strips/blocks and fuse switching disconnectors in cable distribution boards, changing power meters and switch timers, suspension of customer plants, montage work for fault location in auxiliary circuits, bridging or by-passing of partial circuits, maintenance in electric equipment, covering of non-insulated LV conductors or lines.

http://tinyurl.com/br3775j Link to the complete document â&#x20AC;&#x153;Guideline for the selection of personal protective equipment when exposed to the thermal effects of an electric fault arcâ&#x20AC;&#x153;. ISSA

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN

470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 343 11612 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN ISO 14116 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN ISO 14116 ISO 20471 EN EN 533 1149-5 533 EN EN ISO EN 14116 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 20471 ISO EN 342 EN EN 14116 ISO 14058 14058 EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN 11611 ISO ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN 11612 ISO ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN 14116 ISO ISO 14116 EN EN ISO 14116

EN EN 20471 ISO ISO 20471 EN ISO 20471

In most work zones there is a need for 360-degree visibility in addition to heat and flame protection. This visibility is needed under both daytime and nighttime conditions.

HIGH VISIBILITY High visibility is provided in daylight by fluorescent colors, which contrast well with the background in which the worker is operating. Reflective striping that shows up intensely when light is shone upon it (as with the lights of a moving vehicle) provides high visibility under low light and nighttime conditions.

REFLECTIVE TAPE

High visibility clothing is classified depending on the area of the fluorescent colors and the area and quality of the retro reflective materials. It is important to choose clothing with the appropriate classification for your work zone. ZOOM

High visibility clothing should be kept clean in order to provide the original visibility, and replaced when soil, dirt and grease can no longer be washed out of the textile fibers.

FAQ: What does fluorescent mean? MAGNIFICATION, 8 X

“Fluorescent” means that the color has a brightness so it can be more easily observed or detected from distance in mist, fog or other conditions with poor visibility at day time. GLASS BEAD SYSTEM

FAQ: What does retro reflective mean?

MAGNIFICATION, 20 X

“Retro reflective” means that the light beam from the lights of a car is reflected back to its origin, so you can be seen in the dark. That’s why we call it 24 hour visibility. There are two different technologies for providing retro reflective effect – glass bead – or microprism technology. MAGNIFICATION, 200 X

MICROPRISM SYSTEM

342

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EN 14058 EN 470-1 EN ISO 11611 EN 531 EN ISO 11612 EN 61482-1-2 EN 471 EN 1149-5 EN 13034 EN 533 EN ISO 14116

EN ISO 20471

Minimum material of m2 for classification Material Class

Background material

0,80

0,50

0,14

Retroreflective material

0,20

0,13

0,10

0,20

Combination Performance material

From 2010, EN ISO 20471 replaced the older standard EN 471. Since Helly Hansen always uses the highest quality av retroreflective materials, garments that are certified by EN 471 are also certified by EN ISO 20471 on all the important factors. New garments are designed and certified after EN ISO 20471.

14058 EN 342 EN 470-1 EN 14058 EN EN 11611 ISO 343 EN 470-1 EN EN 531 342 EN EN EN ISO 11611 343 343 EN ISO 11612 14058 EN EN 342 531 342 EN 470-1 61482-1-2 EN EN 14058 ISO 11612 343 14058 EN EN 471 ISO 11611 EN EN 470-1 342 61482-1-2 470-1 EN EN 1149-5 531 EN EN 471 14058 ISO ISO 11611 11611 EN EN 13034 ISO 11612 EN EN EN 470-1 1149-5 531 531 EN EN 533 61482-1-2 EN EN EN 13034 11611 ISO ISO 11612 11612 EN EN 14116 ISO 471 EN EN EN EN 533 531 61482-1-2 61482-1-2 EN 1149-5 EN EN EN ISO 14116 471 ISO 11612 471 EN 13034 EN EN 1149-5 61482-1-2 1149-5 ISO EN 20471 533 EN EN 13034 471 13034 EN EN 14116 ISO ISO 20471 EN EN 533 1149-5 533 EN EN ISO EN 14116 13034 343 ISO 14116 343 EN EN EN 343 EN 342 533 EN 342 20471 ISO EN 342 EN EN 14116 ISO 14058 14058 EN EN 14058 EN ISO 20471 ISO 20471 EN 470-1 470-1 EN 470-1 470-1 EN EN 11611 ISO ISO 11611 EN EN ISO 20471 EN 11611 EN 531 531 EN 531 EN EN 11612 ISO ISO 11612 EN ISO 11612 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 EN 471 471 EN 471 EN EN 1149-5 1149-5 EN EN EN 1149-5 EN 13034 13034 EN 13034 EN EN 533 533 EN 533 EN EN 14116 ISO ISO 14116 EN EN ISO 14116

EN EN 20471 ISO ISO 20471 EN ISO 20471

Wind, wet and cold are hazards that might cause accidents and illness - and discomfort at best.

WIND, WET AND COLD A multifunctional outer layer is designed to keep the body protected against rain and wind, while letting excess heat and moisture escape through the membrane and thereby keeping the body in the comfort zone while working. When the body gets wet and cold the attention to hazards at the workplace is reduced; the mind is less alert. Accidents might occur, and work productivity is reduced. Contemporary all weather garments are waterproof and allow moisture on the inside evaporate through a membrane with microporous pores, which are small enough to prevent water droplets from penetrating to the inside out. Moisture transport can also be provided by hydrophilic molecules that, with the support from body pressure absorb and release moisture to the outside. EN 343 states the performance level for waterproofness and moisture vapor transmission efficiency. Waterproofness is measured as g/cm2 water column. Moisture vapor transmission is measured as Ret or g/cm2/24h. In cold weather conditions the fleece thermal layer provides insulation against cold, water vapor transmission and wind protection. EN 342 states the performance levels of the 3 criteria so that the appropriate thermal layer can be chosen to optimize functionality. Insulation is measured in CLO. 1 CLO is 0,152 m2K/W.

EN 14058 is a standard for cool weather protection or moderate low temperatures (<5° C) for single garments. The performance is measured as thermal resistance; water penetration and air permeability are optional. The EN 343 standard outlines functionality requirements in terms of waterproofness and moisture vapor permeability. This standard also recommends a maximum wearing time for work clothes that provide low moisture vapor permeability, as condensation and moisture will form on the inside. Waterproofness is measured in Pa (which is equivalent to a 10 X g/cm2 water column); more than 13,000 Pa is regarded as satisfactory (Index 3). Helly Hansen rainwear is normally waterproof to a much greater degree. Moisture vapor permeability is measured in RET; below 20 is regarded as satisfactory (Index 3). Extremely good functional properties are achieved when the RET value is <10. The EN 342 standard for full suits (jacket and trousers or coveralls) and/or individual items of clothing provides a good indication of the relationship between the insulating properties against cold (thermal resistance: m2*K/W) and air permeability/ windproofness (air permeability: mm/s), enabling users to select the ideal clothing for different weather conditions. Insulation must be a minimum of 0.310 m2/K/W in order to be approved in accordance with EN 343. Resistance against water penetration and moisture vapor transmission are optional additional parameters.

3LAYER 3LAYER 3LAYER

3 LAYER SYSTEM 3 LAYER SYSTEM 3 LAYER SYSTEM

The 3-layer system starts with a Baselayer underneath that transports moisture so that the body stays dry and warm. The thermal midlayer insulates against cold and lets moisture pass through. The protective outer layer blocks rain and wind and lets moisture evaporate to the outside. The Helly Hansen FR multifunctional concept is based upon the 3-layer functionality and offers protection against heat and flames, electric arc, electrostatic discharge and low visibility.

3 3LAYER LAYER SYSTEM

SYSTEM

PROTECTIVE LAYER

BASE LAYER SYSTE BASE LAYER SM Y S TSEYM BASE LAYER STEM

INSULATION LAYER INSULATION LAYER INSULATION LAYER

PROTECTIVE LAYER PROTECTIVE LAYER PROTECTIVE LAYER

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INSULATION m2 x kW

EN 342 PROFILE:

1,0

Product A:

Product B:

• Insulation: 0.31 m3 x kW • Air permeability: 4 mm/second • Moisture vapor permeability: 45 RET

• Insulation: 0.7 m2 x kW • Air permeability: 75 mm/second • Moisture vapor permeability: 40 RET

0,5

(: Sufficient insulation and windproofness but not particularly breathable)

(: Extremely good insulation but not particularly windproof or breathable)

0,3

(1)

100

(2)

(3)

10 0

RESISTANCE AGAINST AIR PENETRATION mm/sek Indeks 1-3

RESISTANCE AGAINST WATER VAPOR PENETRATION Ret m2 x Pa W

EN 343 PROFILE: RESISTANCE AGAINST WATER PENETRATION

Product A: • > 30,000 Pa waterproofness • <10 RET Moisture vapor permeability

Pa 30.000

Index

Product B:

(2*/3**) 13.000 8.000

• > 13,000 Pa waterproofness • <40 RET Moisture vapor permeability B

(1)

* before pre-treatment ** after pre-treatment

(3)

(2)

(1)

Index Ret

RESISTANCE AGAINST WATER VAPOR PENETRATION MOISTURE VAPOR PERMEABILITY; BREATHABLE PROPERTIES

NB! The Index figures provide information about performance level but this does not necessarily mean that Index 3 is the best. It depends on the required balance between e.g. windproofness and ventilation properties

for high levels of activity. The figures in the Index are therefore a good way of selecting the ideal clothing with a documented level of functionality.

79873 FAKSE TWO LAYER BALACLAVA

PROTECTION AGAINST HEAT AND FLAME PROTECTION AGAINST STATIC ELECTRICITY PROTECTION AGAINST ELECTRIC ARC FLASH HIGH VISIBILITY CLOTHING PROTECTION AGAINST FOUL WEATHER

75475 FAKSE POLO

PROTECTION AGAINST COLD WEATHER

75475 FAKSE PANT

75720 FAKSE SOCK

FR BASELAYER BASE LAYER

• Limited flame spread • Antistatic • Electric Arc

HHWORKWEAR.COM

FAKSE

Certificates online URL: http://tinyurl.com/fakse-cer

Helly Hansen recommends that the baselayer in an FR clothing concept be made of heat and flame resistant fibers. Baselayers made of polyester, polypropylene etc. should not be used at a workplace with exposure to heat and flame. Cotton is not flame resistant and further absorbs moisture and blocks moisture transportation.

QR CODE:

Our baselayer is made of 48,5% FR Lenzing® viscose, 48,5% wool and 3% Inox®. The blend of viscose and wool makes the fabric soft and comfortable and offers an optimal compromise of moisture transportation and insulation. Inox® is a steel fibre and facilitates decay of static electricity. The weight of the robust interlock knit is 170 g/m2.

EN 343:2003 EN 342:2004 EN 14058:2004

48,5% WOOL EN 470-1:1995 48,5% VISCOSE 3% OTHER FIBRE EN

ISO 11611:2007 CERTIFICATES:

EN EN ISO 11612:2008 A1, B1, C1 531:1995 EN 1149-5:2008 EN ISO11612:2008 EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA)

75069

FAKSE LS POLO

EN 471:2003

Baselayer

FR BASELAYER

COLOURS: 990 Black SIZES: S-4XL

EN 1149-5:2008

FEATURES:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Neck with button closure • Extended length for extra safety • Contrast seams

EN 13034:2005 EN 533:1995 EN ISO 14116:2008

990

FR BASELAYERS ARE CERTIFIED WHEN USED UNDERNEATH AN ELECTRIC ARC CERTIFIED OUTER LAYER.

FAKSE COLLECTION

EN 343:2003 EN 342:2004 EN 14058:2004

48,5% WOOL EN 48,5% VISCOSE 470-1:1995 3% OTHER FIBRE

75076

FAKSE LS CREW NECK

EN ISO 11611:2007 CERTIFICATES:

BASELAYER

FR BASELAYER

COLOURS: 990 Black SIZES: XS–4XL

EN EN ISO 11612:2008 A1, B1, C1 531:1995

Features:

EN 1149-5:2008 EN ISO11612:2008

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 343:2003

990

EN 13034:2005 EN 342:2004 EN 533:1995 EN 14058:2004

48,5% WOOL EN ISO EN 14116:2008 48,5% VISCOSE 470-1:1995 3% OTHER FIBRE

75075

EN CERTIFICATES:

FAKSE SHIRT

ISO 11611:2007

BASELAYER

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: S-4XL

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Extended length for extra safety • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN EN 343:2003 13034:2005

990

EN 342:2004 EN 533:1995 EN 14058:2004 EN ISO 14116:2008

48,5% WOOL EN 470-1:1995 48,5% VISCOSE 3% OTHER FIBRE

75475

FAKSE PANT

ISO 11611:2007 CERTIFICATES:

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: S-4XL

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 13034:2005

FAKSE ENCOLLECTION

533:1995

BASELAYER

990

EN 343:2003 HHWORKWEAR.COM

EN 342:2004 EN 14058:2004 EN 48,5% WOOL 470-1:1995 48,5% VISCOSE 3% OTHER FIBRE

75068

EN ISO 11611:2007 CERTIFICATES:

FAKSE T-SHIRT

BASELAYER

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: S-4XL

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Extended length for extra safety • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 343:2003 EN 13034:2005 EN 342:2004 EN 533:1995

990

EN 14058:2004 EN ISO 14116:2008 48,5% WOOL EN 48,5% VISCOSE 470-1:1995 3% OTHER FIBRE

75468

FAKSE BOXER

EN CERTIFICATES:

ISO 11611:2007

BASELAYER

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: S-3XL

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 13034:2005

990

EN 533:1995 EN

ISO 14116:2008 48% WOOL 26% KERMEL 20% POLYAMIDE 5% ELASTHANE 1% INOX®

75720

FAKSE SOCK

BASELAYER

FR BASELAYER

COLOURS: 990 Black SIZES: 37-39/40-42/43-45/46-48 Features:

• 48% Wool, 26% Kermel, 1% Inox, 20% Polyamide, 5% Elastan • 6 pack

990

FAKSE COLLECTION

EN 343:2003 EN 342:2004 EN 14058:2004

48,5% WOOL EN 48,5% VISCOSE 470-1:1995 3% OTHER FIBRE

79872

FAKSE ONE LAYER BALACLAVA

EN ISO 11611:2007 CERTIFICATES:

BASELAYER

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: STD

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 343:2003 EN 13034:2005 EN 342:2004

990

EN 533:1995 EN 14058:2004

48,5% WOOL EN ISO EN 14116:2008 48,5% VISCOSE 470-1:1995 3% OTHER FIBRE

79873

EN CERTIFICATES:

ISO 11611:2007

FAKSE TWO LAYER BALACLAVA

EN EN ISO 11612:2008 A1, B1, C1 531:1995

FR BASELAYER

BASELAYER

COLOURS: 990 Black SIZES: STD

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams • Double layer fabric of fabric

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN EN 343:2003 13034:2005

990

EN 342:2004 EN 533:1995 EN 14058:2004 EN ISO 14116:2008

48,5% WOOL EN 470-1:1995 48,5% VISCOSE 3% OTHER FIBRE

79871

FAKSE LONG NECK

EN ISO 11611:2007 CERTIFICATES:

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: STD

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams • Double layer fabric fabric

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008 EN 13034:2005

FAKSE ENCOLLECTION

533:1995

BASELAYER

990

HHWORKWEAR.COM

PROTECT YOUR HEAD! “Thermal damage include first or even higher degree burns. The results are summarized in the illustration (see Figure).It has to be emphasized that the most severely affected parts are the hand and head, including the neck; in more than 2/3 accidents, the right hand is injured and in approximately half of the accidents the face and neck regions are affected.” *

Distribution of thermal injuries < 10% < 10 % 10% - 20% 10 % - 30 % 30% - 40% 30 % - 40 %

40 % - 60 % 40% - 60% > 60% > 60 %

FAKS * = Page 11, Report from “International Social Security Association, Section for Electricity, Gas and Water” 2nd Edition 2011. ISBN 978-3-937824-08-6

EN 343:2003 EN 342:2004 EN 14058:2004

48,5% WOOL EN 470-1:1995 48,5% VISCOSE 3% OTHER FIBRE

79870

FAKSE NECK

EN ISO 11611:2007 CERTIFICATES:

BASELAYER

FR BASELAYER

EN EN ISO 11612:2008 A1, B1, C1 531:1995

COLOURS: 990 Black SIZES: STD

EN 1149-5:2008 EN ISO11612:2008

Features:

• 48,5% Wool, 48,5% Viscose, 3% Other fibre • CE labeling visible on garment • Contrast seams

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN 471:2003 EN 1149-5:2008

990 EN 13034:2005 EN 533:1995

FAKSE COLLECTION

PROTECTION AGAINST HEAT AND FLAME PROTECTION AGAINST STATIC ELECTRICITY PROTECTION AGAINST ELECTRIC ARC FLASH HIGH VISIBILITY CLOTHING PROTECTION AGAINST FOUL WEATHER PROTECTION AGAINST COLD WEATHER

72225 BADEN JACKET

INSULATION LAYER

FR INSULATION LAYER

• Limited flame spread • Antistatic • Cold weather protection

HHWORKWEAR.COM

BADEN FR FIBRE PILE An FR insulation layer increases protection against heat and flame, and significantly enhances the protection provided by the FR outer layer. Our FR Insulation layer is made of 76% Zirpro® treated wool, 19% polyester and 5% Inox®. This blend insulates effectively against cold weather as well as extreme heat. Wool is an excellent insulator and insulates even when saturated with moisture.

Certificates online URL: http://tinyurl.com/baden-cer

The Zirpro® treatment eliminates cyanide gases when wool is burning. The fabric is 400 g/m2 W-knit fibre pile that is extremely hard wearing and durable; the fibres are anchored to the backside of the fabric.

400 g/m2 75% WOOL 20% POLYESTER 5% INOX®

QR CODE:

Inox® supports decay of static electricity from inside out.

72225

BADEN JACKET

INSULATION LAYER

FR INSULATION

CERTIFICATES:

EN 531:1995+A1:1998 Code A, B3, C2

COLOURS: 590 Navy SIZES: XS-3XL

EN 1149-1:1995

Features:

• 75% Wool 20% Polyester 5% Inox • Antistatic • Pile outside • Front zipper • Ribbed hem and cuffs

590

400 g/m2 75% WOOL 20% POLYESTER 5% INOX®

72425 BADEN PANT

CERTIFICATES:

INSULATION LAYER

FR INSULATION

EN 531:1995+A1:1998 Code A, B3, C2

COLOURS: 590 Navy SIZES: XS-3XL

EN 1149-1:1995

Features:

• 75% Wool 20% Polyester 5% Inox • Flame retardant • Antistatic • Ribbed hem • Elastic at waist • Fly • Pile outside

590 BADEN COLLECTION

LYSEKIL COLLECTION

HHWORKWEAR.COM

LYSEKIL THERMAL ZIP-IN The FR Lysekil insulated thermal layer can be used as a separate garment or together with the waterproof and breathable jackets as a zip-in option. The zip-in solution enhances protection against cold, heat and flames.

FAQ: Will use of the zip-in jacket maintain the arc certification of the outer layer?

The outer and inner material is 50% aramide and 50% FR viscose. The interlining is 100% polyester insulation.

Garments used underneath will not affect the certification of the outer wear. The FR zip-in jacket is a certified FR piece, and will enhance the heat and flame protection. NFPA 70E recommends FR layers underneath outerwear, but accepts even regular cotton underwear. Synthetic fibres are not accepted.

OUTER- & INNER MATERIAL: 50% ARAMIDE 50% VISCOSE FR INSULATION: 100% POLYESTER

73227

LYSEKIL INSULATOR

CERTIFICATES:

INSULATION LAYER

FR INSULATION

EN ISO 14116:2008 Index 3/5H/60

COLOURS: 590 NAVY SIZES: S–3XL

EN 14058:2004 Class 3

Features:

• 50% Aramid, 50% Viscose FR • Insulation: 100% Polyester • Optional as zip-in jacket • Inner pocket with velcro closure • Draw cord adjustment at hem

ZIP-IN-OPTION FOR:

71445 / 71446/ 71327 page 35 / page 36 / page 37

590

LYSEKIL COLLECTION

76072 ABERDEEN JACKET CLASS 3

PROTECTION AGAINST HEAT AND FLAME PROTECTION AGAINST STATIC ELECTRICITY PROTECTION AGAINST ELECTRIC ARC FLASH HIGH VISIBILITY CLOTHING PROTECTION AGAINST FOUL WEATHER PROTECTION AGAINST COLD WEATHER

76476 ABERDEEN CONSTRUCTION PANT CLASS 2

PROTECTIVE LAYER

FR PROTECTIVE LAYER

• Limited flame spread • Electric Arc • High vis

HHWORKWEAR.COM

ABERDEEN

Certificates online URL: http://tinyurl.com/aberdeen-cert

The multi-functional protective outer layer is made of 55% modacrylic fibers, 44% cotton and 1% Inox®. Fabric weight 310 g/m². The new Aberdeen series has a functional cut and contemporary styling.

colors and retroreflective stripes which provide 360° and 24 hour visibility and is certified in accordance to EN ISO 20471.

QR CODE:

Inox® provides decay of static electricity which can otherwise be built up in the body.

The Aberdeen series are flame resistent according to EN 11612, and has fluorescent EN 343:2003 EN 342:2004 EN 14058:2004

55% MODACRYL EN 470-1:1995 44% COTTON 1% INOX®

CERTIFICATES: ISO 11611:2007

76072

ABERDEEN JACKET CLASS 3

EN ISO 11612:2008 EN A1/B1/C1 531:1995

PROTECTIVE LAYER

FR PROTECTIVE LAYER HELLY TECH®

EN 1149-5:2008 EN ISO11612:2008

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: XS-3XL

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA)

Features:

• 55% Modacryl, 44% Cotton, 1% Inox • Flame retardant • Antistatic • CE labeling visible on garment • Articulated elbows • YKK center front zipper with back placket • Reflective elements • Storm flap • Velcro closure • Hand pockets with YKK zippers and flap • Chest pocket with flap and velcro closure • Extended back for improved comfort for improved comfort • Loop for ID-card

EN EN ISO 20471:2013 471:2003 Class 3 1 EN 1149-5:2008 EN 13034:2005 EN 533:1995 EN ISO 14116:2008

369

ABERDEEN IS CERTIFIED TO EN 61482-1-2 SEPARATELY FOR CLASS 1. WITH FAKSE BASELAYER UNDERNEATH THE COMBINATION IS CERTIFIED FOR CLASS 2. ABERDEEN COLLECTION

EN 343:2003 EN 342:2004 EN 14058:2004

55% MODACRYL EN 470-1:1995 44% COTTON 1% INOX®

76475

ISO 11611:2007 CERTIFICATES:

ABERDEEN PANT CLASS 2

EN ISO 11612:2008 EN A1/B1/C1 531:1995

PROTECTIVE LAYER

FR PROTECTIVE LAYER HELLY TECH®

EN 1149-5:2008 EN ISO11612:2008

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: C44-C64/D96-D116

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) Class 2 (7kA) (Combined with Fakse baselayer)

Features:

• 55% Modacrylic, 44% Cotton, 1% Inox® • Flame retardant • Antistatic • CE labeling visible on garment • Reflective elements • Fly zipper covered by flap • Plastic covered metal button at center front • Two hand pockets • Thigh pocket with flap & velcro closure. Space for additional accessories and tools • Ruler pocket with an additional pocket for tools • Removable button on ruler pocket for attaching knives • Extra button included • Two open back pockets • Broad center back loop for extra strength and stability • Belt loops with double velcro closure on both sides for hammer holders • Fold at bottom hem gives option to increase length of leg by 5 cm • Knee pad pocket accessible from the inside • Knee pad position can be adjusted 5 cm for better fit

EN 471:2003

EN ISO 20471:2013 Class 2

1 EN 1149-5:2008 EN 13034:2005 EN 533:1995

EN ISO 14116:2008

EN 343:2003

369

EN 342:2004 EN 14058:2004 EN 55% MODACRYL 470-1:1995 44% COTTON 1% INOX®

76476

ABERDEEN CONSTRUCTION PANT CLASS 2

EN ISO 11611:2007 CERTIFICATES:

FR PROTECTIVE LAYER HELLY TECH®

EN ISO 11612:2008 EN A1/B1/C1 531:1995

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: C44-C64/D96-D116

EN 1149-5:2008 EN ISO11612:2008

Features:

• 55% Modacryl, 44% Cotton, 1% Inox • Flame retardant • Antistatic • CE labeling visible on garment • Reflective elements • Fly zipper covered by flap • Plastic covered metal button at center front • Two hand pockets • Thigh pocket with flap & velcro closure. Space for additional accessories and tools • Two hanging pockets front pockets for nails/screws/tools with angled corners and double bottom for increased durability • Ruler pocket with an additional pocket for tools • Removable button on ruler pocket for attaching knives • Extra button included • Two open back pockets • Broad center back loop for extra strength and stability • Belt loops with double velcro closure on both sides for hammer holders • Fold at bottom hem gives option to increase length of leg by 5 cm • Knee pad pocket accessible from the inside • Knee pad position can be adjusted 5 cm for better fit

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN ISO 20471:2013 EN 471:2003 Class 1

EN 1149-5:2008 EN 13034:2005 EN 533:1995 EN ISO 14116:2008

369

ABERDEEN COLLECTION

PROTECTIVE LAYER

EN 343:2003

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EN 342:2004 EN 14058:2004 EN 55% MODACRYL 470-1:1995 44% COTTON 1% INOX®

EN ISO 11611:2007

76479

ABERDEEN PANT CLASS 1

CERTIFICATES:

EN ISO 11612:2008 EN A1/B1/C1 531:1995

PROTECTIVE LAYER

FR PROTECTIVE LAYER HELLY TECH®

EN 1149-5:2008 EN ISO11612:2008

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: C44-C64/D96-D116

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA)

Features:

EN EN ISO 20471:2013 471:2003 Class 1 1 EN 1149-5:2008 EN 13034:2005 EN 533:1995 EN ISO 14116:2008

EN 343:2003

369

EN 342:2004 EN 14058:2004 EN 55% MODACRYL 470-1:1995 44% COTTON 1% INOX®

76480

ABERDEEN CONSTRUCTION PANT CLASS 1

EN ISO 11611:2007

CERTIFICATES:

PROTECTIVE LAYER

FR PROTECTIVE LAYER HELLY TECH®

EN ISO 11612:2008 EN A1/B1/C1 531:1995

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: C44-C64/D96-D116

EN 1149-5:2008 EN ISO11612:2008

Features:

• 55% Modacryl, 44% Cotton, 1% Inox • Flame retardant • Antistatic • CE labeling visible on garment • Reflective elements • Fly zipper covered by flap • Plastic covered metal button at center front • Two hand pockets • Thigh pocket with flap & velcro closure. Space for additional accessories and tools • Two hanging pockets front pockets for nails/screws/tools with angled corners and double bottom for increased durability • Ruler pocket with an additional pocket for tools • Removable button on ruler pocket for attaching knives • Extra button included • Two open back pockets • Broad center back loop for extra strength and stability • Belt loops with double velcro closure on both sides for hammer holders • 5cm fold at bottom hem gives option to increase length of leg by 5 cm • Knee pad pocket accessible from the inside • Knee pad position can be adjusted 5 cm for better fit

EN 61482-1-2:2007 61482-1-2: 2007 Class 1 (4 kA) EN EN ISO 20471:2013 471:2003 Class 1 1 EN 1149-5:2008 EN 13034:2005 EN 533:1995 EN ISO 14116:2008

369 ABERDEEN COLLECTION

ROTHENBURG

WOLFSBURG

71146 WOLFSBURG JACKET

PROTECTION AGAINST HEAT AND FLAME PROTECTION AGAINST STATIC ELECTRICITY PROTECTION AGAINST ELECTRIC ARC FLASH HIGH VISIBILITY CLOTHING PROTECTION AGAINST FOUL WEATHER PROTECTION AGAINST COLD WEATHER

71449 WOLFSBURG PANT

PROTECTIVE LAYER

FR WATERPROOF & BREATHABLE LAYER

• Waterproof & Breathable • Limited flame spread • Electric Arc • Antistatic • High vis

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WOLFSBURG

Certificates online URL: http://tinyurl.com/wolfsburg-cert

Wolfsburg is also certified for high visibility and electric arc flashes. A real multifunctional garment.

The Wolfsburg products are made of Helly Tech® fabric which has a FR modacrylic/cotton protective outer layer and is laminated with a polyester membrane on the inside, providing all weather protection.

QR CODE:

The jacket offers a zip-in option for Lysekil thermal layer enhancing thermal- and heat protection.

The jacket has an FR lining on the inside for extra protection and also to prevent damage to the membrane. The membrane is 100% waterproof and breathable.

ZIP-IN: 73227 EN 343:2003

71145 WOLFSBURG PARKA

page 29

FR PROTECTIVE LAYER HELLY TECH® WATERPROOF BREATHABLE

EN 342:2004

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: S-3XL

14058:2004 55% COTTON 34% MODACRYLIC EN 10% VISCOSE 470-1:1995 1% ANTISTATIC FIBRE

PROTECTIVE LAYER

Features:

• 55% Cotton, 34% Modacryl, 10% Viscose, 1% Antistatic Fibre • Helly Tech® waterproof, windproof and breathable fabric • Fully taped construction • Carbon in membrane • Lining: 100% Polyester, Flame retardant • Reflective elements at shoulders and sleeve end • Detachable hood • Hood designed to be used with a helmet • Double storm flap • Two-way zipper and velcro closure • Two pockets at front with push buttons • Two chest pockets with zippers and flaps • Inner chest pocket with zipper • Mobile phone and pen pocket at right chest • Draw cord adjustment at hem • Draw cord adjustment at waist • Elastic cuffs with velcro adjustment • Zipper for entry inside garment for logo applications • Option for zip-in of thermal jacket 73226 • Click.onloops for accessories under pocket flaps • Tail drop in back

EN CERTIFICATES:

ISO 11611:2007

EN ISO 11612:2008 A1, EN B1, C1 531:1995

EN 1149-5:2008

EN ISO11612:2008

EN 61482-1-2:2007 61482-1-2: 2007 Class 2 (7 kA) EN EN ISO 20471:2013 471:2003 Class 3 1 EN 343:2003+A1:2007 EN 1149-5:2008 3,3 EN 13034:2005 EN 533:1995

369

EN ISO 14116:2008

WOLFSBURG COLLECTION

Multifunctional waterproof and breathable garments are highly recommended to be worn as an FR protective layer. Offering a lot more comfort than traditional rainwear and a lot more functions than FR cotton outer layers.

EN 343:2003 EN 342:2004 EN 14058:2004

55% COTTON 34% MODACRYLIC EN 10% VISCOSE 470-1:1995 1% ANTISTATIC FIBRE

71146 WOLFSBURG JACKET FR PROTECTIVE LAYER HELLY TECH® WATERPROOF BREATHABLE

ZIP-IN: 73227 page 29

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: S-3XL

EN CERTIFICATES:

Features:

• 55% Cotton, 34% Modacryl, 10% Viscose, 1% Antistatic Fibre • Helly Tech® waterproof, windproof and breathable fabric • Fully taped construction • Carbon in membrane • Lining: 100% Polyester, Flame retardant • Reflective elements at shoulders and sleeve end • Detachable hood • Hood designed to be used with a helmet • Double storm flap • Two-way zipper and velcro closure • Two pockets at front with push buttons • Two chest pockets with zippers and flaps • Inner chest pocket with zipper • Mobile phone and pen pocket at right chest • Draw cord adjustment at hem • Elastic cuffs with velcro adjustment • Zipper for entry inside garment for logo applications • Option for zip-in of thermal jacket 73226 • Click.onloops for accessories under pocket flaps • Tail drop in back

531:1995

EN 1149-5:2008

EN ISO11612:2008

EN 61482-1-2:2007 61482-1-2: 2007 Class 2 (7 kA) EN EN ISO 20471:2013 471:2003 3 1 EN 343:2003+A1:2007 EN 1149-5:2008 3,3 EN 13034:2005 EN 533:1995 EN 343:2003 EN ISO 14116:2008 EN 342:2004

369

EN 14058:2004

71449 WOLSFBURG PANT

55% COTTON 34% MODACRYLIC EN 10% VISCOSE 470-1:1995 1% ANTISTATIC FIBRE

EN CERTIFICATES:

ISO 11611:2007

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: S-3XL

531:1995

Features:

EN 1149-5:2008

EN ISO11612:2008

EN 61482-1-2:2007 61482-1-2: 2007 Class 2 (7 kA) EN EN ISO 20471:2013 471:2003 1 1 EN 343:2003+A1:2007 EN 1149-5:2008 3,1 EN 13034:2005 EN 533:1995 WOLFSBURG COLLECTION

PROTECTIVE LAYER

FR PROTECTIVE LAYER HELLY TECH® WATERPROOF BREATHABLE

EN ISO 11612:2008 A1, EN B1, C1

ISO 11611:2007

EN ISO 11612:2008 A1, EN B1, C1

PROTECTIVE LAYER

369

HHWORKWEAR.COM

ROTHENBURG

Certificates online URL: http://tinyurl.com/rothenburg-cert

The Rothenburg products have a lightweight Helly Tech® fabric that offers FR properties in accordance to EN ISO 14116 as well as excellent antistatic properties through a carbon fibre grid. Waterproof and breathable functionality is provided by an FR microporous polyurethane (PU) membrane.

The jacket has a 50% aramide and 50% FR viscose lining on the inside.

QR CODE:

The jacket offers a zip-in option for Lysekil thermal layer enhancing thermal and heat protection.

71327 ROTHENBURG JACKET

PROTECTIVE LAYER

HELLY TECH® MULTINORM

ZIP-IN: 73227

98% POLYESTER 2% CARBON

COLOURS: 260 EN 471 ORANGE, 360 EN 471 YELLOW SIZES: S-3XL

page 29

CERTIFICATES:

Features:

• 98% Polyester, 2% Carbon • Helly Tech® waterproof, windproof and breathable fabric • Fully taped construction • Carbon in membrane • Lining: 50% Aramide, 50% Viscose, Flame retardant • Reflective elements at shoulders and sleeve end • Detachable hood • Hood designed to be used with a helmet • Storm flap • Button closure • Two chest pockets with zippers and flaps • Inner chest pocket with zipper • Mobile phone and pen pocket at right chest • Draw cord adjustment at hem • Draw cord adjustment at waist • Elastic cuffs with velcro adjustment • Two pockets at front with zippers and flaps • Option for zip-in of thermal jacket 73327 • Click.onloops for accessories under pocket flaps

EN 343:2003+A1:2007 3,3

EN 471:2003+A1:2007 3,2

EN 1149-5:2005

EN ISO 14116:2008 Index 1/30H/40

260

360

71427 ROTHENBURG PANT 98% POLYESTER 2% CARBON

PROTECTIVE LAYER

HELLY TECH® MULTINORM

COLOURS: 260 EN 471 ORANGE, 360 EN 471 YELLOW SIZES: S-3XL

CERTIFICATES:

EN 343:2003+A1:2007 3,3

Features:

• 98% Polyester, 2% Carbon • Helly Tech® waterproof, windproof and breathable fabric • Fully taped construction • Carbon in membrane • Lining: 50% Aramide 50% Viscose, Flame retardant • Reflective elements at shoulders and sleeve end • Fly with zip • Two pockets at front with flaps • Two thigh pockets with flaps • Belt loops with Click.onfunction for additional accessories • Elastic at waist • Detachable back piece with elastic suspenders • Velcro adjustment at hem • Boot zippers with storm flap and velcro closure

EN 471:2003+A1:2007 2,2

EN 1149-5:2005

EN ISO 14116:2008 Index 1/30H/40

260

360 ROTHENBURG COLLECTION

ASKER HI-VIS FR RAIN JACKET HIGHLIGHTS PROTECTION AGAINST HEAT AND FLAME PROTECTION AGAINST STATIC ELECTRICITY PROTECTION AGAINST ELECTRIC ARC FLASH HIGH VISIBILITY CLOTHING PROTECTION AGAINST FOUL WEATHER PROTECTION AGAINST COLD WEATHER

DETACHABLE HOOD WITH DRAWCORD ADJUSTMENT 2 STORM FLAPS WITH ZIP CLOSURE 2 WAY ZIPPER REFLECTIVE TAPE AROUND BODY, SLEEVES AND AT SHOULDERS 1 CHESTPOCKET FOR MOBILE PHONE 2 HANDPOCKETS WITH STORM FLAP ID-CARD LOOP UNDER FLAP ADJUSTMENT BOTTOM HEM EXTENDED BACK

PROTECTIVE LAYER

FR WATERPROOF LAYER

• Waterproof • Limited flame spread • High vis

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ASKER

Certificates online URL: http://tinyurl.com/asker-cert

The Asker products are made of a tear resistant polyester coated substrate, with a FR layer of polyvinylchloride (PVC) and polyurethane (PU) on the surface to provide durability as well as a soft drape.

QR CODE:

Asker is certified after EN 14116, EN 343 and the new high visibility standard EN ISO 20471. The garments have many new practical features and details.

70005 ASKER HIVIS FR RAIN JACKET

100% POLYESTER

FR PVC/PU 100% WATERPROOF

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: S-3XL

CERTIFICATES:

EN ISO 14116:2008 Indeks 1/5H/40

Features:

• 100% Polyester • Waterproof fabric and construction • Flame retardant • Insulation: 100% Polyester, 80 g/m2 • Reflective elements • Detachable hood • Storm flap • Two-way zipper and velcro closure • Two handpockets with storm flaps • Draw cord adjustment at hem • ID-Card loop under flap • Extended back for improved comfort for extra comfort

EN ISO 20471:2013 3 (M–3XL) 21 (S) EN 343:2003+A1:2007 3,1

70405 ASKER HIVIS FR RAIN PANT

PROTECTIVE LAYER

FR PVC/PU 100% WATERPROOF

100% POLYESTER

PROTECTIVE LAYER

COLOURS: 369 EN ISO 20471 Yellow/Charcoal SIZES: S-3XL

CERTIFICATES:

EN ISO 14116:2008 Indeks 1/5H/40

Features:

• 100% Polyester • Waterproof fabric and construction • Flame retardant • Reflective elements at bottom hem • Buttons at leg closure • Opening for hanging pockets, with zipper • Ruler pocket • Elastic at waist • Removable shoulder straps

EN ISO 20471:2013 1 1

EN 343:2003+A1:2007 3,1

369 ASKER COLLECTION

LILLEHAMMER

Certificates online URL: http://tinyurl.com/lillehammer-cert

The Lillehammer range is made from the same material as the Asker range but it features a different design and cut, plus other functional details. The material itself is made from a tear-resistant polyester textile, comprising one layer of polyvinyl chloride (PVC) and an outer layer of polyurethane (PU). This gives it

a soft yet durable quality that remains 100% waterproof after long periods of wear. The weight is 250g/m2. Lillehammer is certified in accordance with EN 14116, EN 343 and EN 471.

70172 LILLEHAMMER JACKET

100% POLYESTER

QR CODE:

PROTECTIVE LAYER

FR PVC/PU 100% WATERPROOF

COLOURS: 369 EN 471 YELLOW/CHARCOAL, 265 EN 471 ORANGE/NAVY SIZES: S-3XL

CERTIFICATES:

EN ISO 14116:2008 Indeks 1/5H/40

Features:

• 100% Polyester • Waterproof fabric and construction • No shoulder seams • Reflective elements • Hood with draw cord adjustment • Double storm flap • Zipper and velcro closure • Mobile phone pocket with velcro closure at right chest • Draw cord adjustment at hem • Two pockets at front with flaps • Ribbed cuffs inside • Velcro adjustment at cuffs • Click.onloops for accessories under pocket flaps • Tail drop in back

EN ISO 20471:2013 3 1

EN 343:2003+A1:2007 3,1

265

369

70472 LILLEHAMMER BIB

100% POLYESTER

FR PVC/PU 100% WATERPROOF

CERTIFICATES:

EN ISO 14116:2008 Indeks 1/5H/40

COLOURS: 369 EN 471 YELLOW/CHARCOAL, 265 EN 471 ORANGE/NAVY SIZES: S-3XL

EN ISO 20471:2013 2

Features:

• 100% Polyester, PVC/PU coated 250 g/m2 • Reflective tape around body and legs • Adjustable elastic suspenders

EN 343:2003+A1:2007 3,1

265

LILLEHAMMER COLLECTION

PROTECTIVE LAYER

369

HHWORKWEAR.COM

LILLEHAMMER COLLECTION

EN EN 343 343 EN 343 EN EN 342 342 EN 342 EN EN 14058 14058 EN 14058 EN 343 EN EN 470-1 470-1 EN EN 470-1 342 EN EN ISO ISO11611 11611 EN EN ISO 11611 14058 EN EN 531 531 EN EN 531 470-1 EN EN ISO ISO11612 11612 EN EN ISO 11612 ISO 11611 EN EN 61482-1-2 61482-1-2 EN EN 61482-1-2 531 EN EN 471 471 EN EN 471 ISO 11612 EN EN 1149-5 1149-5 EN 1149-5 EN 61482-1-2 EN EN 13034 13034 EN EN 13034 471 EN EN 533 533 EN 533 EN 1149-5 EN EN EN ISO ISO14116 14116 EN 343 ISO EN EN 14116 13034 343 EN 342 EN 533 342 EN 14058 EN EN EN EN 14116 ISO 14058 ISO ISO20471 20471 EN EN 470-1 ISO 20471 EN 470-1 EN ISO 11611 EN ISO 11611 EN 531 EN ISO 20471 EN 531 EN ISO 11612 EN ISO 11612 EN 61482-1-2 EN 61482-1-2 EN 471 EN 471 EN 1149-5 EN 1149-5 EN 13034 EN 13034 EN 533 EN 533 EN ISO 14116 EN ISO 14116

EN ISO 20471 EN ISO 20471

Helly Hansen workwear is designed and manufactured to prevent accidents and injuries during work when exposed to heat, flames, rain or cold – and hence complies with the European Directive 89/686/EEC.

EUROPEAN STANDARDS OVERVIEW OF CE-STANDARD APPLIED BY HELLY HANSEN

Protective clothing shall according to the European Directive have appropriate economical design, proved lowest possible thermo-physiological stress for the user, and offer the optimum protection level. The CE mark on the garment means that the garment complies with the European Directive. It is a conformity label to guarantee the correspondence to harmonized requirements. CE marking is compulsory for PPE covered by Directive 89/868/EEC. Distributors of protective clothing have the responsibility to monitor that protective clothing sold to their customers carry the necessary marking as a documentation of compliance with the European Directive. PPE is categorized in 3 categories of products: • Category I Minimal risk PPE • Category II Standard PPE • Category III PPE Mortal or serious and irreversible danger exists.

Garments are tested, certified and marked in accordance with the CE standards to document such compliance whenever appropriate.

HHWORKWEAR.COM

EN ISO 13688:2013

EN 343:2003 Protective clothing general EN requirements 343:2003 EN 342:2004 EN 342:2004 EN 14058:2004 EN 14058:2004 EN ISO 11612:2009 EN 470-1:1995 Protective clothing against EN heat and flame 470-1:1995 EN ISO 11611:2007 EN ISO 11611:2007 EN 531:1995 EN 531:1995 EN EN ISO 14116:2008 ISO11612:2008 343:2003 EN Materials, material ISO11612:2008 assemblies and protective EN EN clothing with limited 342:2004 61482-1-2: 2007 flame spread properties EN 61482-1-2: 2007 EN EN 14058:2004 471:2003 EN 471:2003 EN EN 470-1:1995 1149-5:2008 EN 1149 EN 1149-5:2008 EN EN Electrostatic properties ISO 11611:2007 13034:2005 EN 13034:2005 EN 531:1995 533:1995 EN 533:1995 EN ISO11612:2008 ISO 14116:2008 EN ISO 14116:2008 EN 61482-1-2:2007 EN 61482-1-2: 2007

Protective clothing against electric arc

EN 471:2003 EN 1149-5:2008 EN 13034:2005 EN ISO 20471:2013 High Visiblity warning

EN clothing for professional 533:1995 use EN ISO 14116:2008

This standard specifies general performance requirements for ergonomics, innocuousness, size designation, ageing, compatibility and marking of protective clothing and the information to be supplied by the manufacturer with the protective clothing.

The standard is only intended to be used in combination with other standards containing requirements for specific protective performance and not on a stand-alone basis.

This standard specifies performance requirements for garments which are designed to protect the wearerâ&#x20AC;&#x2122;s body from heat and/or flame. The performance requirements are applicable to garments which could be worn for a wide range of end-uses, for which there is a need for clothing with limited flame

spread properties (Code A/ISO 15025) and where the user can be exposed to convective- (Code B/ISO 9151) or radiant- (Code C/ISO 6942) or contact heat (Code F/ISO 12127) or molten metal splashes from aluminum (Code D/ISO 9185) or iron (Code E/ISO 9185).

The performance level is given as 1-3/4 (e.g. B3); Index 1 is lowest performance level.

This standard specifies performance requirements for the limited flame spread properties of materials, material assemblies and protective clothing in order to reduce the possibility of the clothing burning and thereby itself constituting a hazard. Limited flame spread is tested according to EN 15025. Protective clothing complying with this standard is intended to protect workers against occasional and brief

contact with small igniting flames, in circumstances where there is no significant heat hazard.

Garments are marked with a Cleaning Index (A/B/C) specifying A: Performance level (1-3) for various washing or cleaning processes/B: Washing Procedure and Temperature (Industrial or Houshold wash)/C: Cleaning method. Example: 3/5I/75 means performance level 3 for 5 X Industrial wash at 75C.

The standard series specify requirements and test methods for electrostatic dissipative protection clothing to avoid incendiary discharges. EN 1149-1 is test method for measurement of surface resistance.

This standard specifies test methods to test materials and garments intended for use in heat- and flame resistant clothing for workers exposed to electric arcs. In contrast to the test method in IEC 614812-1-1 a directed and constrained electric arc in a low voltage circuit is used to classify materials and clothing in defined arc protection classes.

Performance level (PL) is given as an index specifying performance level 1, 2 or 3 for each layer or a combination of layers; Index 1 is lowest. Garments with Index 1 shall be used together with other garments with Index 2 or 3, and never be used next to the skin.

The test method is only applicable for surface conductive materials (e.g. fabrics with steel fibers). EN 1149-2 is test method for measurement of the vertical resistance through a material. EN 1149-3 is test method for measurement of decay time/

induction charging. The test method is applicable to all materials. EN 1149-4 is garment test method (under development). EN 1149-5 is standard for performance requirements.

The test methods specified are aimed at rendering a decision whether arc thermal protection is met under defined conditions. Two protection classes are tested. Protection Class 1 and Protection Class 2 are safety requirements covering actual risk potentials due to electric fault arcs.

The defined duration of the electric arc is 500ms in both test classes. These conditions represent e.g. low voltage environmental conditions during an electric fault.

Class 1 Class 2

This standard specifies requirements for protective clothing capable of signaling the userâ&#x20AC;&#x2122;s presence visually, intended to provide conspicuity of the user in hazardous situations under any light conditions by day and under illumination by vehicle headlights in the dark.

4 kA 7 kA

The performance level is classified as a combination of the area of retroreflective and fluorescent material applied in the garment and the quality of of the reflective material. the garment shall be marked accordingly by X.

Testing refers to the thermal arc effects; it does not apply to other effects like noise, light emissions, pressure rise, hot oil, electric shock, the consequences of physical and mental shock or toxic influences.

X Area of retroreflective/fluorescent material level 1, 2 or 3. A sleeveless vest can only be Class 1 or 2.

EN 342:2004 EN 14058:2004 EN 342:2004/AC:2008 EN 14058:2004 Ensembles and garments EN for protection against cold 470-1:1995 EN EN 470-1:1995 343:2003 EN ISO 11611:2007 EN ISO 11611:2007 342:2004 EN 531:1995 EN 14058:2004 EN 531:1995 14058:2004 Garments for protection EN against cool weather ISO11612:2008 EN 470-1:1995 ISO11612:2008 EN 61482-1-2: 2007 EN ISO 11611:2007 61482-1-2: 2007 EN 471:2003 EN EN 531:1995 471:2003 EN EN 343:2003+A1:2007 1149-5:2008 EN EN 343:2003 EN Protection against foul ISO11612:2008 1149-5:2008 weather EN EN 13034:2005 342:2004 EN 13034:20052007 61482-1-2: EN 533:1995 EN 14058:2004 EN EN 533:1995 471:2003 EN ISO 14116:2008 EN 470-1:1995 EN EN ISO 14116:2008 1149-5:2008 Information symbol

EN ISO EN 11611:2007 13034:2005 EN 531:1995 EN 533:1995 EN ISO11612:2008 EN ISO 14116:2008

EN 61482-1-2: 2007 EN 471:2003 EN 1149-5:2008 EN 13034:2005 EN 533:1995

EN ISO 14116:2008

The standard specifies requirements and test methods for performance of clothing ensembles, two piece suits or coveralls, intended to protect against cold.

Insulation is measured for an ensemble with standard reference underwear underneath (B) and reported as m2*K/W. In addition air permeability (Y) is measured and reported as Class 1-3 where 1 is lowest performance.

X(B) Thermal insulation (m2*K/W) Y Air permeability (Pa) Class

The standard specifies requirements and test methods for the performance of single garments protecting against cooling of the body in cool environment. Cool environment is characterized in general as a possible combination of humidity and wind at temperatures of -5 C째 and above.

The insulation performance is measured as m2*K/W and reported as thermal resistance class 1-3; 1 is lowest performance. Garments containing materials with a thermal resistance above 0.25 m2*K/W are normally intended for use in cold weather, see EN 342.

Air permeability class, water penetration resistance class, insulation value are optional.

This standard specifies requirements and test methods applicable to materials and seams of protective clothing intended to protect against the influence of precipitation (e.g. rain, snowflakes), fog and ground humidity.

The performance is measured as Water Penetration Resistance (X) (Water column: > 800/1300) and Water Vapor Resistance (Y) (Ret: 20<Ret<40).

X Resistance to water penetration, level 1-3 (3 is highest resistance) Y Resistance to water vapor resistance, level 1-3 (3 is highest resistance)

The symbol specifies that a user must be aware of additional information regarding the garment which is of value when using and/or maintaining of the garment.

Resistance to water penetration class is optional.

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Helly Hansen designs products that comply with certain US norms and standards. In some cases this means that design and use of materials must follow standards and test methods not applicable in Europe.

International companies who require product compliance with US and/or EN standards should check the US collection on our website.

US STANDARDS OVERVIEW OF ASTM- AND ANSI-STANDARDS APPLIED BY HELLY HANSEN

Jeffrey Stull, Safety Consultant Inernational Personnal Protection, Inc., Texas, USA: EN ISO 20471 EN ISO 20471

WHY ARE STANDARDS IMPORTANT? Standards play an integral role in the industries requiring protective clothing and equipment and provide the basis for guaranteeing a minimum level of protection to the worker. Standard test methods provide uniform testing procedures that ensure that manufacturers evaluate their products in the same way and make their claims accordingly. Standard specifications set minimum requirements for protective clothing and equipment in terms of design, performance and labels. Different practices exist for how manufacturers demonstrate conformance to these standards by independent testing and certification. HOW STANDARDS WORK Standards provide minimum specifications for different requirements for the design, performance, documentation, and labeling of the “product” (the clothing or equipment item). • Design requirements dictate how a product is to be made by specifying product configurations or other design features that must be provided. For example, arc and flame resistant rainwear cannot have hardware that penetrates from exterior to interior surfaces of the garment. • Performance requirements are the most common parts of a standard. Performance requirements involve evaluating the product

materials and components using specific test methods and setting either minimum or maximum values of the test property for the material or component. For example, material used in high visibility garments must show a certain level of brightness when measured using specific equipment and procedures. • Documentation requirements address information that a manufacturer must provide with the product. These generally entail such information as the areas that must be addressed in user information or care and maintenance instructions provided by the manufacturer. Documentation requirements may also require reporting test results from a specific test to evaluate the product, but there is no specific minimum or maximum requirement. • Labeling requirements indicate how the manufacturer must label the product and the minimum information that must be provided on the product label. In addition to identifying the manufacturer and the product, standards may require labels to provide some way of tracing the product and a statement indicating compliance with the standard. Each of these types of requirements is not found in all standards. When citing a particular stand ard, you must understand what that standard requires to ensure that you will get what you specify.

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NFPA 70E Electric work safety requirements

ASTM F6413 Flame resistance test method

ASTM F1891 Electric arc protective rainwear

ASTM F1506 Electric arc protective textile baesed apparel

NFPA 70E is related to the National Electric Code and addresses electric safety requirements for employee workplaces that encompass electric conductors and equipment installed within or on buildings and adjacent areas and for the supply of electricity. Chapter 1 of the standard addresses safety-related work practices including gloves, sleeves footwear, head protection, face and eye protection, and protective apparel. Specific requirements are provided for wearing of clothing resistant to flash flame where possible exposure to electric arc occurs. Clothing for body protection

must meet ASTM F1506 (textile clothing) or ASTM F1891 (rainwear). Selection criteria are based on a hazard/risk category by task with ratings ranging from 1 to 4. A separate table specifies different types of PPE for each hazard/risk category. For example, FR clothing consisting of a long-sleeved shirt pants, coverall, jacket, parka, or rainwear is required for hazard/risk categories 1 through 4. Arc flash suits are required for hazard/risk categories 3 and 4 in addition to arcrated shirts and pants. NFPA 70E is primarily an end user standard, which does not specifically address

clothing certification or labeling. Nevertheless, manufacturers can claim compliance with the standard according to one of the referenced hazard/risk categories by meeting the respective referenced clothing standard and then indicating the hazard/risk category consistent with the product’s performance.

ASTM D6413 is the preferred test method for demonstrating material flame resistance performance for flame-resistant clothing. The test measures the time a material will continue to burn (called “afterflame time”) and the damaged length (called “char length”) when a cut edge of the material is vertically

exposed to a 1½ inch high methane flame for 12 seconds. The test method does not set specific acceptance criteria. However, the general industry practice and use of this test method in other flame-resistant clothing standards are to accept materials that show afterflame times of 2 seconds or

less, and char lengths of 6 inches or less, without evidence of melting or dripping by the material under these test conditions. When flame resistance claims are made for Helly Hansen products, the icon shown above is used.

ASTM F1891 is a standard specification that establishes test methods, minimum physical and thermal performance criteria, a suggested sizing guide, and labeling for rain wear used by workers who may be exposed to thermal hazards of momentary electric arcs and open flames.

The specification includes requirements for material insulation during a simulated electric arc exposure. In this test, the measured arc thermal protective value (AT PV) must be greater than 5 calories per square centimeter. Rainwear materials are also evaluated for flame resistance, strength, and

water penetration resistance. Rainwear seams are also evaluated for water penetration resistance.

ASTM F1506 is a standard specification that establishes test methods, minimum physical and thermal performance criteria, and labeling for textile-based apparel used by workers who may be exposed to thermal hazards of momentary electric arcs and open flames. The garment material

is tested for insulation during a simulated electric arc exposure. The test measures the energy required to cause a second degree burn, which is called an arc thermal protective value (AT PV). Garment materials are also tested for flame resistance, physical strength, colorfastness and laundry shrinkage.

Helly Hansen products meeting this standard are shown with the icon to the left.

ASTM F2733 Petrochemical flash fire protective rainwear

ASTM F2302 Flame and heat resistant clothing

ANSI 107 High visibility clothing

ASTM 1671 Blood Borne Pathogen Test Method

This standard establishes requirements for rainwear to protect workers from exposure to accidental flash fires and related fire hazards at petrochemical facilities. ASTM F2733 is very similar to ASTM F1891 (electric arc protective rainwear) in that it has the same requirements for material strength, and similar requirements for flammability and waterproof performance. However, it uses an instrumented thermal manikin test to predict the amount of burn injury that would occur

while wearing the rainwear during a simulated flash fire exposure. The latter testing is done in two parts. The first part is conducted using the rainwear material in the form of a “standard” coverall that is featureless and is intended to determine the protective qualities of the fabric. Based on this testing, total predicted body surface area is required to be 40% or less for evaluated rainwear test coveralls. A second set of instrumented thermal manikin testing is

performed on the actual rainwear testing where an assessment is made if the seams remain intact and the closures continue to function following the simulated flash fire. While there is no requirement for the actual rainwear protection during this test, the overall percentage body burn is reported. In addition, the moisture vapor transmission rate of the rainwear material is reported.

ASTM F2302 is designed to set minimum performance criteria for protective clothing where other specialized standards do not apply. The specification requires minimum flame resistance using the ASTM D6413 test method (described below) and heat resistance, as based on an International test method, ISO 17493. The specification requires that clothing materials show no more than a 2-second after flame and 6-inch char length when tested to ASTM D6413. For heat resistance,

materials can not ignite, melt, drip, or separate, or shrink more than 10% when placed in an oven for 5 minutes at 500°F. Reusable garment materials are tested new and after 10 cycles of laundering. Helly Hansen product meeting this standard are identified with the icon shown above. WARNING: Products that show acceptable afterflame and/or heat resistance per ASTM F2302 are not intended for direct flame contact or for prolonged high heat exposure. These products will

not protect against all flame and heat exposures. Conduct a hazard and risk assessment to determine the suitability of this product for your application.

ANSI 107 addresses clothing intended to provide visibility of the wearer under both daytime and nighttime conditions. The standard sets requirements for the minimum area and color performance of fluorescent background materials for daytime visibility. The standard also sets minimum requirements for reflective striping, which provides

nighttime visibility when illuminated by vehicle headlights or other light sources. Three garment classes are established based on the respective areas of fluorescent background and reflective striping materials. Two levels of photometric performance are also based on the brightness and intensity of the reflected light of the reflective striping.

The icon to the left is used to show compliance of Helly Hansen products with this standard. The garment class and photometric level are shown below the icon and standard citation in this catalog.

ASTM F1671 is a test method that measures the passage of blood-borne pathogens through clothing material and seams. In this testing, specimens of workwear materials are individually placed in a test cell and exposed to liquid containing a non-harmful surrogate microorganism. This microorganism simulates Hepatitis B and C Viruses and the Human Immunodeficiency Virus (that causes AIDS). A sophisticated assay procedure is used that is able to detect a single penetrating virus, thus establishing the basis for clothing material viral penetration resistance. Test results are reported as “pass” if no virus is detected. Helly Hansen products that provide passing results for clothing material and seams are identified with the icon to the left.

WARNING: While Helly Hansen attests that the clothing material and seams pass ASTM F1671, conduct an assessment of workplace hazards to determine the sitability of this workwear for the intended application and if additional personal protective equipment is needed. Maintain workwear in accordance with the care instructions on the product label, read the user instructions prior to use to understand the limitations of the respective workwear prior to use. This workwear will not protect you under all conditions of exposure to bloodborne pathogens or other hazards.

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SIZE CHART

MENâ&#x20AC;&#x2122;S Garment size

Europe regular

2XL

3XL

48-50

52-54

56-58

60-62

C44

C46

C48

C50

C52

C54

C56

C58

C60

C62

C64

1 Chest

Cm Inches

88 34,5

92 36

96 37,5

100 39

104 41

108 42,5

112 44

116 45,5

120 47

124 48,5

128 50

2 Waist

Cm Inches

76 30

80 31

84 33

88 34

92 36

96 38

100 39

104 41

108 42

112 44

116 45

3 Hips

Cm Inches

94 37

98 38,5

102 40

106 41,5

110 43

114 45

118 46

122 48

126 49,5

130 51

134 52,5

4 Inside leg length

Cm Inches

78 30,5

80 31,5

81 32

82 32

83 32,5

84 33

85 33,5

86 34

87 34

88 34,5

5 Body height

Cm Inches

176-182 69-71,5

182-188 71,5-74

188-194 74-76

164-170 170-176 64,5-66,5 66,5-69

Europe tall 4 Inside leg length

Cm Inches

5 Body height

Cm Inches

C144

C146

C148

C150

C152

C154

C156

C158

C160

C162

C164

83 32,5

85 33,5

86 34

87 34

88 34,5

89 35

90 35

91 35,5

92 36

93 36,5

193-199 75,5-78

169,5-175 175-181 66-68,5 68,5-71

Europe small

181-187 71-73,5

181-187 187-193 187-193 193-199 71-73,5 73,5-75,5 73,5-75,5 75,5-78

D96

D100

D104

D108

D112

D116

D120

2 Waist

Cm Inches

90 35

94 37

98 38,5

102 40

106 41,5

110 43

116 45,5

3 Hips

Cm Inches

104 41

108 42,5

112 44

116 45,5

120 47

124 48,5

128 50

4 Inside leg length

Cm Inches

76 30

77 30

78 30,5

79 31

80 31,5

81 32

82 32,5

Socks Europe

37-39

40-42

43-45

46-48

4-6

6 1/2 - 8 1/2

9 - 10 1/2

11 - 12 1/2

EN 340:2004

Protective clothing - General requirements

Helly Hansen protective clothing is designed and manufactured in such a way that it does not have any effect on the userâ&#x20AC;&#x2122;s health or hygiene. The design guarantees a correct fit and protection for the body when used correctly.

1 Size grading is based on body measurements in centimetres, see the size guide. All garments are properly marked with garment labels and on external labels to indicate the information required for the standard.

2 3 4

The design and material offer function and comfort. The material offers good fade-resistance, stability, strength and durability, to ensure that the garments have a long life, even with heavy use and many washes.

1, 2, 3, 5 =

Body measurement

Garment measurement

CHEMICAL COMPATIBILITY PVC/PU COATED FABRICS

Acetaldehyde Acetic acid, 30% Acetic acid, glacial Acetone Acetonitrile Acrylic acid Acrylonitrile Ammonium hydroxide, <70% Ammonium hydroxide, conc. Ammonium sulfate Amyl acetate Aniline Benzaldehyde Benzene Benzyl alcohol Benzyl chloride Butane Butyl acetate Butyl cellosolve Butylamine Butyraldehyde Butyric acid Calcium chloride Calcium hypochloride Carbon disulfide Carbon tetrachloride Carbonic acid Chloroacetone Chlorobenzene Chloroform Chromic acid Citric acid Coconut oil Copper chloride Copper sulfate Cottonseed oil Cyclohexane Cyclohexanol Cyclohexanone Detergent/soaps Diacetone alcohol Dibenzyl ether Dibutyl phthalate Diethanolamine Diethylamine Diisobutyl ketone Diisopropylamine Dimethyl formamide Dimethyl sulfoxide Dimethylamine

Dioctyl phthalate Dioxane Epichlorohydrin Ethyl acetate Ethyl alcohol Ethyl benzene Ethyl cellosolve Ethyl ether Ethyl formate Ethylene dichloride Ethylene glycol Ethylene oxide Ferric chloride Formaldehyde Formic acid Furfural Gasoline, unleaded Gluteraldehyde Glycerine Heptane Hexachlorocyclopentadiene Hexane Hydrazine Hydrobromic acid Hydrochloric acid, >70% Hydrochloric acid, 30-70% Hydrochloric acid, 10-30% Hydrofluoric acid, 48% Hydrogen peroxide, 30% Hydroquinone Hylene Isoamyl acetate Isobutyl alcohol Isooctane Isopropanolamine Isopropyl alcohol Isopropyl ether Isopropylamine Kerosene Lactic acid Lauric acid Linseed oil Maleic acid Malic acid Methyl acetate Methyl alcohol Methyl cellosolve Methyl ethyl ketone Methyl isobutyl ketone Methylene chloride

PVC

The chart below shows chemical compatibility of waterproof fabrics coated with polyvinylchloride (PVC) and polyurethane (PU).

Methylhydrazine Mineral oil Monoethanolamine Morpholine Naptha Nitric acid, 10% Nitric acid, 30-70% Nitric acid, 70% Nitrobenzene Nitropropane Octane Octyl alcohol Oleic acid Oxalic acid Palmitic acid Pentane Perchloric acid, conc. Perchloroethylene Phenol Phosphoric acid, conc. Picric acid Polychlorinated biphenyls Potassium cyanide Potassium dichromate Potassium hydroxide Propane b-Propriolactone Propyl acetate Propyl alcohol Propylene oxide Sodium hydroxide, 30-70% Sodium hydroxide, 70% Sodium hypochlorite Sodium thiosulfate Stearic acid Sulfuric acid, <30% Sulfuric acid, 30-70% Sulfuric acid, >70% Tannic acid Tetrahydrofuran Tin chloride Toluene Toluene diisocyanate Trichloroethylene Tricresyl phosphate Triethanolamine Turpentine Urea Vinyl acetate Xylene

Chemical not expected to degrade work wear material CAUTION - Chemical not expected to degrade material but is skin toxic or suspect/ actual carcinogen; consider alternative suit design and material WARNING - CHEMICAL WILL DEGRADE WORK WEAR MATERIAL No data are available to rate material

The data provided in this chemical-material compatibility guide is based on recommendations from the 3rd edition of theâ&#x20AC;?Guidelines for the Selection of Chemical Protective Clothing,â&#x20AC;? ACGIH, Cincinnati, 1987. Helly Hansen makes no warranties regarding the use of this information.

The end user must conduct a hazard assessment based on the conditions of use and determine the suitability of appropriate protective clothing on a case-by-case basis. Permeation or penetration testing against the chemical(s) of interest may be required to determine the barrier effectiveness of the material.

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A GUIDE TO IDENTIFY APPROPRIATE CERTIFIED FR PROTECTIVE CLOTHING IDENTIFICATION OF HAZARD

ELECTRIC ARC

HEAT & FLAME

QUANTIFY EXPOSURE

(ISSA page 17)

(Likelihood page 9)

Cal/cm2

Occassionally

Frequently

EN 61482-1-2

EN 61482-1-1/ NFPA 70E

EN 14116

EN 11612

Class 1 or 2

Hazard Risk Categories 4 levels

EN 15025-A1-2 Limited flame spread

EN 15025-A3 Limited flame spread

Class 1: 4 kA

Class 2: 7 kA

HRC 1: 4 cal/cm2

HRC 2: 8 cal/cm2

HRC 3: 25 cal/cm2

Convective heat

HRC 4: 40 cal/cm2

Radiant heat

Contact heat

Molten aluminium heat

Molten iron heat

51 53

HELLY HANSEN WORKWEAR SALES COMPANIES AROUND THE WORLD

AUSTRIA

FRANCE

SLOVENIA

Helly Hansen Deutschland GmbH

Helly Hansen France SARL

ZAVAS d.o.o.

Balanstrasse 73 / Haus 10 D-81541 München Phone: +49 (0)89 200084030 Fax: +49 (0)89 40268440 E-mail: Workwear.ec@hellyhansen.com

Parc des Glaicins, 11 Rue du Pre Faucon F-74940 Annecy le Vieux Phone: +33 458020070 Fax: 0826 10 28 18 E-mail: workwear.ec@hellyhansen.com

Špruha 19 SI-1236 Trzin Phone: +386 1 5610 420 Fax: +386 1 5610 430 E-mail: prodaja@zavas.com

BELGIUM & LUXEMBURG

GERMANY

Helly Hansen NV

Helly Hansen Deutschland GmbH

Helly Hansen Spain suc. En Espana

Holtum Noordweg 77 NL-6121 RE Born Phone: +32 (0)380 81543 Fax: +32 (0)78 166046 E-mail: Workwear.ec@hellyhansen.com

Balanstrasse 73 / Haus 10 D-81541 München Phone: +49 (0)89 200084030 Fax: +49 (0)89 40268440 E-mail: Workwear.ec@hellyhansen.com

Ronda Maiols no 1, 4a Planta, Despacjps 419-421 E-08192 Saint Quize del Vallés (Barcelona) Phone: +34 931770617 Fax: +34 902884482 E-mail: Workwear.ec@hellyhansen.com

CANADA

Helly Hansen Leisure Canada Inc.

131 Thornhill Dr. Dartmouth, Nova Scotia CA - B3B 1S2 Phone: +1 (1)902 4686382 Fax: +1 (1)902 4682367 E-mail: custservice@climategear.ca

CHILE

Segurycel S.A.

Avenida Ejercito N° 740 CL-Santiago Phone: +56 2 7075700 Fax: +56 2 7075725 E-mail: workwear@hellyhansen.no

ITALY

Helly Hansen AB

Largo Donegani 2 I-20121, Milano Phone: +39 0289877800 Fax: +39 02290053833902 E-mail: Workwear.ec@hellyhansen.com

Visiting Address: Stormbyvägen 2-4, S-163 91 SPÅNGA

THE REPUBLIC OF IRELAND & NORTHERN IRELAND PMG - Premier Marketing Group

Unit G2 Calmount Park Calmount Road, Dublin 12 Phone: +353 01 4600723 Fax: +353 01 4600726 E-mail: customerservice.uk@hellyhansen.com

NETHERLANDS

Helly Hansen BV

Visiting Address: Lergravsvej 59 2. sal 2300 København S

Holtum Noordweg 77 NL-6121 RE Born Phone: +31 (0)46 7440074 Fax: +31 0900 0400146 E-mail: Workwear.ec@hellyhansen.com

Postal Address: P.O. Box 22 DK - 2100 KØBENHAVN Ø Phone: +45 80 88 55 24 Fax: +45 80 88 55 23 E-mail: workwear@hellyhansen.no

ESTONIA

Tamec Trade OÜ Madara 33 EE-10613 Tallinn Web: www.tamectrade.ee Phone: +3726816611 Fax: +3726825143 E-mail: info@tamectrade.ee

FINLAND

Helly Hansen Oy Visiting address: Teknobulevardi 3 - 5 FI – 01530 Vantaa Phone: +47 69 24 91 50 Customer service Fax: +47 69 24 91 56 E-mail: workwear@hellyhansen.no

CONFIDENT WHEN IT MATTERS HHWORKWEAR.COM

SWEDEN

Helly Hansen Italy SRL

DENMARK

A/S Helly Hansen

SPAIN

NORWAY

Helly Hansen AS PO box 1653 Vika N-0120 Oslo, Norway

P.O. Box 55 S-163 91 SPÅNGA Phone: +46 0200 896 380 Fax: +46 0200 882 654 E-mail: workwear@hellyhansen.no

SWITZERLAND

Helly Hansen (Schweiz) AG TMC Zürich, Showroom 394 Thurgauerstrasse 117 CH-8065 Zürich Phone: +41 (0)44 5785340 Fax: +41 (0)44 8298051 E-mail: Workwear.ec@hellyhansen.com

UNITED KINGDOM

Helly Hansen UK Ltd Unit G3 (A) Birbeck House Colliers Way, Phoenix Park NG8 6AT Nottingham UK Phone: +44 (0) 115 979 5997 E-mail: customerservice.uk@hellyhansen.com

USA

Helly Hansen (U.S.) Inc.

Visiting address: Munkedamsveien 35 N-0250 Oslo Phone: +47 69 24 91 50 Fax: +47 69 24 91 56 E-mail: Workwear@hellyhansen.no

4104 C Street N.E., Suite # 200 Auburn, Washington 98002 Toll Free: +1 866-435-5902 Fax: +1 253-852-1483 E-mail: CustomerService-USA@hellyhansen.com

PORTUGAL

Helly Hansen AS

Helly Hansen Spain suc. En Espana Ronda Maiols no 1, 4a Planta, Despacjps 419-421 E-08192 Saint Quize del Vallés (Barcelona) Phone: +34 931770617 Fax: +34 902884482 E-mail: Workwear.ec@hellyhansen.com

RUSSIA

Helly Hansen Russia Mosfilmovskaya street d. 54, s.1 RU-119590 Moscow Russia Phone: 0074954199901 E-mail: workwear.russia@hellyhansen.com

EXPORT (Excluding Europe and North America)

Munkedamsvn. 35, 6.fl, PO box 1653 N-0250 Oslo, Norway E-mail: export.workwear@hellyhansen.com Phone: +31 610201389 Export Manager