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The symbols below represent various features of our garments. The following definitions apply:
The European standard EN 420 regulates the standard requirements for protective gloves
as follows:
• The gloves themselves should not impose a risk or cause injury.
• The pH of the gloves should be as close as possible to neutral.
• Leather gloves should have a pH value between 3.5 – 9.5.
• The highest permitted value for chromium is 3 mg/kg (chrome VI).
• Details of any substance used in the glove which is known to cause allergies should be specified.
• The gloves should be sized by reference to an agreed common European hand size, for example minimum length.
EN 420: Size Selection
SIZE | 6 | 7 | 8 | 9 | 10 | 11 |
Minimal Length (mm) | 220 | 230 | 240 | 250 | 260 | 270 |
Hand Circumference (mm) | 152 | 178 | 203 | 229 | 254 | 279 |
Hand Length (mm) | 160 | 171 | 182 | 192 | 204 | 215 |
The European standard EN 388 regulates the minimum requirements, test methods and labeling of safety gloves against mechanical risks when carrying out work. Protection against mechanical risks is presented by a pictogram accompanied by five numbers (performance levels), each representing
test performance against a specific hazard.
The mechanical risks and/or their test methods are defined as follows:
Abrasion Resistance | Puncture Resistance |
Blade Cut Resistance | EN ISO 13997 Cut Resistance |
Tear Resistance |
EN 388: Protection Against Mechanical Risk
TEST | PERFORMANCE LEVELS | |||||
1 | 2 | 3 | 4 | 5 | ||
Abrasion Resistance (Cycle) | <100 | 500 | 2000 | 8000 | – | |
Blade Cut Resistance (Index) | <1.2 | 2.5 | 5 | 10 | 20 | |
Tear Resistance (Newtons) | <10 | 25 | 50 | 75 | – | |
Puncture Resistance (Newtons) | <20 | 40 | 100 | 150 | – | |
A | B | C | D | E | F | |
EN ISO 13997 Cut Resistance (Newtons) | 2 | 5 | 10 | 15 | 22 | 30 |
The European standard EN 407 regulates the minimum requirements, test methods and labeling for safety gloves in relation to thermal risks. Safety gloves certified in accordance with this standard protect the wearer from contact heat, radiant heat, and small splashes from molten metal.
However, it does not concern the specific application of heat-resistant gloves, such as firefighting or welding. Heat-resistant gloves are intended to fulfill the following properties in accordance with EN 407:
The nature and degree of protection is presented by a pictogram followed by a series of six performance levels, relating to specific protective qualities.
Safety gloves are classified and tested in EN 407 in accordance with the following criteria:
The mechanical risks and/or their test methods are defined as follows:
Protection From Ignition Based on the length of time the material continues to burn and glow after the source of ignition is removed. The seams of the glove shall not come apart after an ignition time of 15 seconds. (Highest performance level 4 = after-flame time 2 seconds, afterglow time 5 seconds) | Protection From Radiant Heat Based on the length of time the glove is able to delay the transfer of heat when exposed to a radiant heat source. (Highest performance level 4 = at least 150 seconds) |
Protection From Contact Heat Based on the temperature range (100-500 °C) at which the user will feel no pain for at least 15 seconds. (Highest performance level 4 = + 500 °C) | Protection From Droplets of Molten Metal The number of molten metal drops required to heat the glove to a given level. (Highest performance level 4 = over 35 droplets) |
Protection From Convective Heat (gradually penetrating heat) Based on the length of time the glove is able to delay the transfer of heat from a flame from an open fire. (Highest performance level 4) | Protection From Molten Metal The weight of molten metal required to cause damage (smoothing or pin-holing) across a simulated skin (attached to the inside of the glove). (Highest performance level 4 = 200 grams) |
EN 407: Protection Against Thermal Risk
In accordance with the test in EN 407, the safety gloves are classified with a performance level in relation to each of the individual thermal hazards (numbers from 1 to 4, with 4 being the best). What is important is that the glove must not come into contact with open fire if it does not fulfill performance level 3 in the fire resistance test.
TEST | PERFORMANCE LEVELS | |||
1 | 2 | 3 | 4 | |
Ignition – after burn (time in sec) | <20 | <10 | <3 | <2 |
Ignition – after glow (time in sec) | N/R | <120 | <25 | <5 |
Contact Heat (temp. in ºC after 15 sec) | 100 | 250 | 350 | 500 |
Convective Heat (heat transfer delay sec) | <4 | <7 | <10 | <18 |
Radiant Heat (heat transfer delay sec) | <5 | <30 | <90 | <150 |
Droplets of Molten Metal (drop) | <5 | <15 | <25 | <35 |
Molten Metal (g) | 30 | 60 | 120 | 200 |
The European standard EN 511 regulates the minimum requirements, test methods and labelling for safety gloves in relation to protection from cold. Gloves certified under this standard protect the wearer from convective cold (penetrating cold) and contact cold (direct contact).
Determination of performance levels for safety gloves against cold:
Based on the thermal insulation properties of the glove which are obtained by measuring the transfer of cold via convection. (Calculation of the thermal insulation properties based on the temperature of the hand model, room temperature and energy required to maintain the temperature.)
Based on the thermal resistance of the glove material when exposed to contact with a cold object. (Comparison with normative reference).
If no water permeates into the glove over a 30-minute period, this test is deemed as passed. (0 = water penetration, 1 = no water penetration).
EN 511: Cold Protection
TEST | PERFORMANCE LEVELS | ||||
0 | 1 | 2 | 3 | 4 | |
Convective Cold Resistance | i<0.1 | 0.1< i<0.5 | 0.15< i<0.2 | 0.22< i<0.3 | 0.3< i |
Contact Cold Resistance | R<0.025 | 0.025<R0.05 | 0.05<R<0.1 | 0.1<R<0.15 | 0.15<R |
Permeability to Water | Fail | Pass | – | – | – |
Our safety footwear with CE marking meets the requirements of CE EN ISO 20345 standard, confirming that the product meets the requirements of European guidelines regarding Personal Protective Equipment (PPE), and has been subjected to testing carried out by a recognised European testing institute.
Steel toe caps for protection from falling objects and compressions are tested with 200 joule impact and 1500KN compression.
Shock absorbent heels protect the body against stress.
Heat resistant soles withstand heat of up to 80°C.
Anti static soles are designed to discharge the body’s static electricity up to tolerances of 100kΩ – 1000MΩ.
Oil resistant outsoles are resistant to most oils and chemicals.
SRA slip resistant rating for slip resistance on ceramic tiles with 0.5% Sodium Lauryl Sulphate.
The symbols below represent various features of our garments. The following definitions apply:
Our range of SABS (South African Bureau of Standards) approved garments are certified in accordance with SANS 434. Our 100% cotton J54 and D59 fabrics are certified to SANS 1387.
Our Acid Resistant garments
offer certified protection against
penetration, absorption and
repellency to low volatility liquid
chemicals in accordance with
ISO EN 6530.
Our Flame Retardant garments
offer protection where there is a
risk of contact with heat and flame
in accordance with ISO EN 116611 /
11612 / SANS 1423-1
We use triple needle stitching on
stress bearing seams of selected
garments to enhance durability.
Our waterproof garments can
withstand 3000 – 5000mm of water
over a 24 hour period without leaking.
Our cold resistant garments offer
protection in working environments
as low as -20°C
The reflective tapes on our high
visibility garments are ISO EN
20471 (Class II) certified making
the wearer visible in hazardous
situations regardless of lighting conditions.
We use YKK zips on our premium
range of Javlin garments. YKK is the
world’s largest and most trusted zip
manufacturer.
Our breathable fabrics allows
moisture vapour to be transmitted
through the material. This way the
wearer stays dry while working.
These garments are designed to
be water-resistant, featuring
seam-sealed construction capable
of withstanding water penetration
of less than 1000mm over a
24-hour period.
Our garments employ cutting-edge
multi-layering technology to ensure
they are completely impervious to wind,
providing unparalleled protection against
gusts and breezes.
Our garments feature strategically
placed vents designed to optimize
air circulation, promoting efficient cooling
for the wearer.
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The symbols below represent various features of our garments. The following definitions apply: