A Retroreflectometer is used to check the performance of retroreflective tape. Every roll of tape is tested to ensure it meets and exceeds the standard requirements. The retroflectometer measures the coefficient of two rotating angles. EN ISO 20471 states the reading should not be below 330 (cd/lx.m2) however at Portwest they insist on a reading of 400 (cd/lx.m2) plus.
A spectrophotometer is used to check the chromaticity – “colour intensity” – of fabric. They use this to ensure every roll of fabric meets the requirements of EN ISO 20471 and RIS-3279-TOM.
RIS imposes a higher concentration for high visibility orange fabric for railway workers. This increases the conspicuous nature of the fabric and ensures that the rail worker is more visible.
In order to comply with EN ISO 11611 all external pockets must be flapped, except for side pockets below the waist which do not extend more than ten degrees forward of the seam.
A single rule pocket with an opening not greater than 75mm is permitted behind the side seam on one or both legs.
To meet EN ISO 11611 tensile strength must be at least 400N and tear strength must be at least 15N for class 1 and 20N for class 2.
For example:
Portwest's winning FR50 style has a tensile strength value of at least 500N and tear strength of at least 25N after 50 washes.
Reflective tape must be at least 50mm wide. Bands of reflective tape must be positioned at least 50mm apart.
Reflective tape must be positioned 50mm or more from the end of sleeve or leg.
Reflective tape must encircle torso and/or limbs to be included in the calculation of the necessary square area of reflective tape. A gap (for fastening system or seam) in the band of reflective tape must be 50mm or less. The total amount of such gaps in every band must not exceed 100mm around the torso and 50mm around the sleeves and legs.
Highest level of protection - required for any persons working on or near motorways, dual-carriage ways or airports. Must incorporate a minimum of 0.80m2 of background material and 0.20m2 of retroreflective materials. (4 metres of 5cm wide reflective tape)
Required for any persons working on or near A and B class roads, also for delivery drivers. Must incorporate a minimum of 0.50m2 of background material and 0.13m2 of retro-reflective material. (2.60 metres of 5cm wide reflective tape)
Minimum level of protection required for any persons working on a private road or to be used in conjunction with a higher classed garment. Must incorporate a minimum of 0.14m2 of background material and 0.10m2 of retroreflective material. (2 metres of 5cm wide reflective tape)
This international standard specifies minimum basic safety requirements and test methods for protective clothing for use in welding and allied processes (excluding hand protection). There are two classes with specific performance requirements.
Class 1 is protection against less hazardous welding techniques and situations, causing lower levels of spatter and radiant heat.
Class 2 is protection against more hazardous welding techniques and situations, causing higher levels of spatter and radiant heat.
The EN ISO 11611: standard has the following parameters:
For chemical protective clothing offering limited protective performance against liquid chemicals (Type 6 and Type PB [6] equipment). This standard specifies the minimum requirements for limited use and re-useable limited performance chemical protective clothing.
Limited performance chemical protective clothing is intended for use in cases of a potential exposure to a light spray, liquid aerosols or low pressure, low volume splashes, against which a complete liquid permeation barrier (at a molecular level) is not required.
Type 6 Chemical Protective suits must cover and protect at least the trunk and the limbs.
Example: One piece coveralls or two piece suits (with or without hood), boot-socks, or boot covers.
Type PB [6] Partial body protection covers and protects only specific parts of the body.
Example: coats, aprons, sleeves.
This European standard is part of a series of standards for test methods and requirements for electrostatic properties of protective clothing.
The standard specifies material and design requirements for garments used as part of a total earthed system, to avoid incendiary discharges.
The requirements may not be sufficient in oxygen enriched flammable atmospheres.
This European Standard is not applicable for specifying protection against main voltages.
Test method for measurement of surface resistivity. Surface resistance measures the conductivity between two points on the surface of a fabric. The lower the resistance the higher the conductivity, resulting in charge going to earth.
Test method for measurement of the electrical resistance through a material (vertical resistance). This is the level of conductivity when measured through the depth of a fabric.
Test methods for measurement of charge decay. Charge decay measures how long it takes for an electric current to dissipate. The quicker it dissipates the higher the anti-static properties of the garment.
Please note the EN 1149-4 Garment Test is under development.
EN 1149-5 specifies the performance and design requirements to avoid static discharge for all electrostatic dissipative protective clothing as part of an entire earthed system, shoes, clothing & floor. The material meets the requirements.
EN 13034 specifies the performance requirements for disposable and re-usable limited performance chemical protective clothing (Type 6 and (Type PB [6]) garments. Limited performance chemical protective clothing (disposable and re-usable) is intended for use in cases of a potential exposure to a light spray, liquid aerosols, low volume splashes and in circumstances where a complete barrier to chemical exposure is not required.
The standard covers both chemical protective suits (Type 6) and partial body protection (Type PB [6])
Chemical Protective Suits (Type 6) cover and protect at least the trunk and the limbs, e.g. one piece coveralls or two piece suits with or without hood, boot-socks, or boot covers.
Partial Body Protection of similar limited performance Type PB [6] covers and protects only specific parts of the body, e.g. coats, aprons, sleeves, etc.
In order to ensure that a chemical protective suit meets Type 6 protection, it is tested using a mist or fine spray of water. The water is dosed with a mild detergent to produce a specified surface tension and injected with a dye to aid the assessment of leakage. The test subject wears an absorbent suit underneath the one to be tested, which absorbs any leaks and is stained by the dye. Success or failure is determined by measuring the total area of any stains on three suits and comparing this with the requirement. Leaks will typically occur at closures and interface areas, but the liquid can also seep through the material itself.
Type PB [6] testing is conducted in a similar way to the Type 6 suit test but only on partial body garments such as sleeves, aprons, coats, etc.
EN ISO 11612 is the standard for protective clothing which protects against heat and flame. Users for these garments include those who work in oil & gas, welding & allied processes, mining, petroleum and many other industries.
There are a host of specific tests conducted as part of EN ISO 11612, including tests for: Flame Spread, Tensile Strength, Tear Resistance, and Heat Resistance.
Flame Spread Test:
A flame is held against the fabric for ten seconds. After it is removed the fabric should not continue to burn. There should be no hole formation, melting or molten debris.
Tensile Strength Test:
The fabric must be able to withstand a minimum force of 300 newtons while being stretched or grabbed.
Tear Resistance Test:
The fabric must be able to withstand a minimum force of 10 newtons before it will tear.
Heat Resistance Test:
The fabric is placed in an oven at 180oC and must not ignite melt or shrink within the first 5 minutes in order to comply with the standard.
This standard investigates the fabric and garment's ability to protect against the thermal effects of an electric arc. This can be done via two test methods: 1. IEC 61482-1-1 (Open Arc Test Method) and 2. IEC 61482-1-2 (Box Test Method).
An electric arc is an intense flash of electricity which can result in numerous injuries.
Garments can be layered to achieve a better Cal rating. For example, a thermal layer may achieve an Ebt of 4.3 Cal/cm2, and an outer coverall may achieve an ATPV of 13.6 Cal/cm2. However, the combination ATPV/Ebt ratings will be greater than the sum of the two single layers, as the air gap between the two layers affords the wearer additional protection.
This test method aims to establish an ELIM (Incident Energy Limit) and an ATPV rating of a fabric and/or garment. These values, expresses as cal/cm², are the highest incident thermal energy to which the garment can be exposed without the wearer getting a second degree burn or the formation of holes in the fabric. The higher the cal rating of the garment or fabric, then the greater the protection for the wearer.
This test method aims to establish an APC1 or an APC2 rating of a fabric and/or garment (APC=Arc Protection Class). Test conditions for APC1 & APC2 try to simulate typical exposure conditions for a short circuit current of 4kA and 7kA respectively.
A single layer garment in most cases will pass APC1. For APC2, a thicker fabric or multi layer system is required.
Portwest has 17 items (Coveralls: FR50, FF50, FR60, FR28, FR21, FR22, AF22, AF53, AF73 & BIZ1) and (Ensembles: FR55/FR56, FR55/FR57, FR25/FR26, FR25/FR27, FR61/FR62, FR61/FR63 & BIZ2/BIZ30) tested to ISO 13506.
This optional test evaluates how garments will perform during a flash fire situation. The test gives a very accurate representation of the level of burn injury sustained by the wearer should they become engulfed in flames. A life size, heat sensing manikin is used to produce a body map which uses colour coding to indicate predicted body burn.
The manikin consists of over 100 temperature sensors positioned just beneath the surface on the body, arms, legs and head. The purpose of the sensors are to measure the variation in temperature on the manikin surface after exposure to flame.
In order to replicate a real life situation, the manikin is fitted with both undergarments and the garments to be tested. The manikin is then exposed to total flame engulfment for four seconds. Flames are provided by a system of propane burners surrounding the manikin.
Heat energy absorbed by the sensors is recorded, with data normally collected for up to 120 seconds after the burn. A report is then produced showing a "body map" indicating predicted body burn of either no burns, first, second, or third degree burns and where they occurred.
Garments must be laundered according to the manufacturer's instructions; incorrect laundering of flame resistant garments can seriously affect their performance and fit.
The flame resistant finish is retained for the normal life cycle of the garment provided that the care instructions are adhered to.
Modaflame™ Work HVO is constructed as per Modaflame™ Work but is additionally certified to EN ISO 20471 and RIS 3279.
Modaflame™ Work is an inherently flame resistant fabric. This special blend combines 60% Modacrylic Fibre with 39% Cotton and 1% Carbon Fibre. Modaflame™ Work is extremely comfortable, hardwearing, and offers full anti static protection.
60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre, Portwest's Modaflame™ Work Stretch fabric features added stretch for ease of movement and greater flexibility.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Constructed from 61% Modacrylic, 18% Viscose, 15% Polyester, 5% Aramid, 1% Carbon Fibre, Modaflame™ Work HVO uses advanced technology to provide protection in a multi-risk environment. Inherently flame resistant and anti-static, this unique blend of fibres has highly effective moisture management properties and a comfortable handle. Certified to a range of standards including EN ISO 20471 and RIS 3279, Modaflame Work HVO provides outstanding versatility and protection.
Modaflame™ Work Stretch is an inherently permanent flame resistant fabric and combines 60% Modacrylic, 35% Cotton, 4% Elastane and 1% Carbon Fibre. Modaflame™ Work Stretch has stretch for ease of movement and greater flexibility, adding to it's comfort, durability and anti-static protection.
Specifications are subject to change - See Terms & Conditions for more info
Portwest has been independently rated by Ecovadis for its environmental, social, and ethical performance and achieved a silver rating, meaning they are in the top 25% of globally rated companies.
The pillars taken into consideration include the environment, labour practices and human rights, ethics, and sustainable procurement.
This product conforms with essential health and safety requirements as set out in European Directives.
This symbol indicates UKCA marking in progress at time of print. All products placed on the UK market from January 2023 must be UKCA marked.
40+ UPF rated fabric to block 98% of UV rays.
This garment has stretch panelling in key movement areas for greater flexibility.
A mobile phone pocket is included in this garment.
This garment features 4 pockets.
This garment has a radio loop for easy attachment of a radio.
This product is a new addition to the range of Portwest products.
Wash at a Maximum Temperature of 40°C using a normal wash cycle
Do not bleach this item
This item can be tumble dried on a low temperature setting
This item can be ironed on a low temperature setting of up to 110°C
Do not dry clean this item