PRO FIT Neoprene Chemical Protection Glove 10

Standards and labels

• EN 407:2004

  EN 407:2004 is a European standard that specifies the safety requirements for protective gloves for thermal risks. It sets rules for the design, construction, and testing of gloves that protect users from heat and fire. Testing includes measurements of contact heat, convective heat, radiant heat, small splashes of molten metal and flame resistance. The standard also includes requirements for labeling and instructions for use. This standard is an updated version of EN 407:1994 and it's intended to protect the users against thermal risks, such as heat and flame, and to help them to choose a suitable glove for their specific application.

  Test results

  Metal Splash Resistance Level 4

  EN 407:2004 is a European standard focused on assessing the protective capabilities of gloves against thermal risks, including hazards such as molten metal splashes. Metal Splash Resistance Level 4 represents an advanced level of protection, where the gloves are designed to handle substantial exposure to molten metal. This performance level signifies that the gloves can effectively resist at least 35 droplets of molten metal, protecting the wearer without the metal penetrating the glove material significantly. The testing involves simulating conditions where molten metal is splashed onto the glove, assessing the glove's ability to prevent molten metal from sticking and causing burns. Gloves that achieve Level 4 are ideal for heavy industrial applications such as steel mills, foundries, and welding, where frequent and substantial contact with molten metal occurs. This level of protection is crucial for maintaining safety and preventing serious injuries in environments with high thermal risks.

  Heat Convection Level 3

  EN 407:2004 is a European Standard that specifies the requirements and test methods for protective gloves intended to protect against thermal risks, including heat from convection. The standard classifies the level of protection gloves provide against different forms of heat and fire. For the test result "Level 3" under EN 407:2004 in the category of Heat Convection, this level indicates that the glove provides moderate protection against convective heat. Specifically, it signifies that the glove can withstand a heat transfer index (HTI) of 10 to 20 seconds before the user would begin to feel pain from a heat source, offering substantial protection in environments where exposure to moderate levels of convective heat occurs.

  Heat Contact Level 4

  The Heat Contact result Level 4 in the standard EN 407:2004 signifies that the material tested can withstand contact with a hot item at a minimum temperature of 500°C for at least 15 seconds without the user feeling pain or getting a second degree burn. This performance level is part of a standardized method used within the EU to determine how well materials used in protective gloves, for instance, can resist thermal risks, including exposure to fire, contact heat, convective heat, radiant heat, small splashes or large quantities of molten metal. Specifically, the test involves placing a cylindrical rod, heated to a standard temperature, against the glove material. The duration it takes for the temperature on the inside of the glove to increase by 10°C from the start temperature (nominally 25°C) is measured. Achieving Level 4 implies a higher level of protection, making gloves that satisfy this requirement suitable for high-risk jobs such as those in foundries or for handling extremely hot materials safely.

  Burning Behaviour Level 3

  Level 3 protection means that the material must have an afterflame time of no more than 3 seconds and an afterglow time of no more than 25 seconds. This level is appropriate for situations requiring more robust protection against brief but more intense exposure to fire.

  Radiant Heat Level 3

  EN 407:2004 is a European standard that outlines the performance requirements for protective gloves intended to shield against various thermal risks, including radiant heat. Radiant Heat Level 3 signifies a higher degree of protection, indicating that the gloves are designed to effectively delay significant heat transfer from a radiant source. This level ensures that the gloves can protect the wearer for a minimum of 50 seconds before the temperature inside the glove increases. The test method involves exposing the glove to a controlled source of radiant heat and measuring the duration it takes for the heat to penetrate through the glove material to the point where it increases the inner temperature to a defined threshold. Gloves achieving Level 3 protection are suitable for more intense radiant heat environments, such as those found in steel mills, glass handling, and other industrial settings where substantial exposure to high levels of radiant heat occurs regularly. This enhanced protection is critical for maintaining safety and preventing thermal burns during prolonged exposure to high temperatures.

  Molten Metal Resistance Level X

  EN 407:2004 is a European standard that provides specifications for protective gloves to safeguard against thermal risks, including the exposure to molten metals. The designation Molten Metal Resistance Level X indicates that the gloves have not been tested for this specific risk, or they failed to meet the minimum requirements set out in the standard for protection against molten metal splashes. This means that the gloves are either unsuitable for use in environments where there is a risk of contact with molten metals, or additional testing is required to determine their suitability. Typically, such a classification implies that the gloves should not be used for handling molten metals and should only be considered for other types of thermal risks specified in the standard, where molten metal exposure is not a concern. This classification helps in ensuring that users select the right type of glove based on the specific hazards present in their working environment, thereby preventing inappropriate use and enhancing safety.

• EN 388:2016

  EN 388:2016 is a European standard for measuring the performance of protective gloves against mechanical risks (abrasion, cut, tear, and puncture). The standard includes test methods and performance requirements for gloves to be considered compliant. Test results are reported using a series of four numbers, each representing the performance level achieved in one of the tests.

  Test results

  Cut Resistance, Coup Test Level 2

  EN 388:2016 standard features a Coup Test used to measure Cut Resistance, and a result of Level 2 indicates moderate protection against cuts. This level signifies that the material being tested withstood between 2.5 to 5.0 cutting cycles before the blade penetrated the glove during testing. The Coup Test involves a rotating circular blade with a constant force applied, moving back and forth across the material until a cut through occurs. The sharpness of the blade and the distance of blade travel are measured before the test, and after cutting through the material, to ensure accuracy. Practical implications of a Level 2 result suggest the gloves are suitable for tasks with some cut hazards but are not suggested for high-risk cut environments, such as handling heavy or very sharp materials where a higher level of protection might be necessary. This result helps businesses choose gloves tailored for different workplace needs regarding cut risks.

  Tear Resistance Level 2

  EN 388:2016 is a European standard that sets criteria for testing the mechanical risks for protective gloves, including abrasion, cut, tear, and puncture resistance. The Tear Resistance Level 2 designation indicates that the gloves have a moderate level of resistance to tearing. The test for tear resistance involves subjecting a sample of the glove material to a force until it tears, and the force required to initiate and propagate the tear is measured. Gloves that achieve Level 2 tear resistance can withstand between 25 to 50 Newtons of force. This level of tear resistance is suitable for tasks where gloves might face moderate stresses that could cause tearing, such as general handling and light industrial work where sharp or jagged materials are handled less frequently. These gloves provide reliable protection and durability in scenarios where some degree of mechanical risk is present but not excessively severe.

  Puncture Resistance Level 2

  The standard EN 388:2016 includes an assessment of Puncture Resistance, where Level 2 signifies that the material has met specific criteria for resistance against puncture. The result of Level 2 in puncture resistance means that the protective glove or material can withstand a force of 60 to 100 newtons before being punctured. The test method used involves using a standardized steel puncture probe that is pushed against the material at a specified speed until it pierces through it. In essence, achieving a Level 2 puncture resistance under EN 388:2006 suggests that the protective equipment offers moderate protection against punctures, making it suitable for environments where there is a risk of encountering sharp objects such as needles, but are not excessively sharp or exert very high force.

  Cut Resistance, ISO 13997 Level C

  The EN 388:2016 standard comprehensively addresses the cut resistance of gloves, using the ISO 13997 test method, where achieving Level C indicates that the glove can withstand forces between 10 to 14 newtons during cutting. This level of cut resistance provides an intermediate level of protection against cuts, suitable for handling tasks where there is a significant risk of cuts from sharp objects but where the highest level of cut resistance isn't necessary. The ISO 13997 test itself is a more detailed and clear manner to assess material cut resistance under a straight-edge blade under varying load, unlike the Coup Test used previously, which could blunt the blade. Essentially, Level C gloves are designed for robust hand protection in environments where cut hazards are considerable but not at the most extreme end of the scale, making them suitable for industries like construction and manufacturing where sharp tools and materials are frequently handled.

  Abrasion Resistance Level 3

  EN 388:2016 is a European standard that provides guidelines for assessing the protection levels of gloves against mechanical risks, such as abrasion, cuts, tears, and puncture. The Abrasion Resistance Level 3 indicates a higher level of protection, signifying that the gloves can resist more intensive wear from rough materials. According to the standard, the abrasion resistance test involves rubbing the glove material against sandpaper under a specified pressure until it is worn through. Level 3 abrasion resistance requires that the gloves withstand 2000 to 7999 cycles of abrasion. This enhanced level of durability is appropriate for tasks involving more frequent or more intense contact with abrasive surfaces, such as construction work, woodworking, and handling building materials. Gloves with Level 3 abrasion resistance offer a robust barrier against wear, extending glove life and providing increased protection for the wearer’s hands, thus reducing the risk of injuries in more demanding work environments.

• EN 511:2006

  EN 511:2006 is a European standard that sets requirements for the protection against cold for gloves and mittens. It covers factors such as resistance to cold, water penetration and breathability. Testing must be done by a certified lab and must show that the product meets all requirements of the standard. Possible test results would include pass/fail for each requirement, as well as specific measurement data.

  Test results

  Cold Contact Level 2

  The standard EN 511:2006 specifies requirements for protective gloves that guard against cold environments. Cold Contact result Level 2 indicates moderate insulation against contact cold, quantified with a thermal resistance measurement in the range of 0.050 to less than 0.100 m²°C/W. This means gloves achieving this level can provide a reasonable amount of insulation, helping to reduce heat transfer from the hands to the cold contact surface, thereby lowering the rate at which hands become cold. The measurement of contact cold resistance is performed using a standardized test that involves placing the glove materials against metal plates cooled to different temperatures. The difference in temperature across the glove material is then analyzed to determine its thermal resistance. For practical implications, gloves classified under Level 2 of Cold Contact in EN 511:2006 are suitable for environments or tasks where individuals are exposed to cold objects but do not necessarily involve extreme cold or extended exposure, offering a balance between dexterity and protection from the cold .

  Convective Cold Level 2

  The Convective Cold Level 2 test result of standard EN 511:2006 indicates a thermal insulation measurement range of 0.15 to less than 0.22 m²°C/W. This result means that gloves evaluated under this standard at Level 2 provide moderate insulation from cold air, effectively slowing down the rate of heat loss from the hand when exposed to cold environments; hence, the level denotes a specific degree of protection. The Convective Cold Test employs a specially designed apparatus where a heated mannequin hand in a glove is subjected to controlled cold air environments to measure how much power (in watts) is required for the hand to maintain a consistent temperature of approximately 30°C. The crucial measurement derived—the Index of Thermal Resistance (ITR)—is reflective of the glove's ability to insulate against cold air convection. Level 2 gloves, specifically, are suitable for environments where low to moderate cold air exposure is expected, providing a protective barrier that reduces the rate of heat transfer from the hand, balancing comfort and dexterity with thermal protection.

  Water Tightness Level 1

  EN 511:2006 is a European standard focused on testing the water tightness of protective gloves against penetration by water. Its purpose is to ensure that protective gloves offer adequate resistance to water. A Level 1 rating in water tightness signifies that the gloves provide basic protection against water penetration, though they may not be suitable for prolonged exposure to wet conditions. The test method involves placing the gloves on a hand-shaped form, filling them with water, and then observing for any signs of leakage over a specified period. Practical implications of this result for the product category include indicating that the gloves offer some degree of protection against water exposure, making them suitable for use in mildly wet or cold environments where only limited exposure to water is expected. However, they may not be suitable for prolonged exposure to heavy rainfall or immersion in water.

• EN ISO 374-1:2016

  EN ISO 374-1:2016 is a standard that defines the performance requirements for gloves that protect against chemicals and microorganisms. The standard specifies the design, materials, and testing requirements for gloves to protect against chemicals and microorganisms. Possible test results include measurements of the gloves' permeation resistance, degradation, and penetration. It also includes the safety and functionality requirements for gloves.

  Test results

  Specified Requirements Type B

• PPE Category 3

  PPE stands for "personal protective equipment." PPE Category 3 refers to equipment that is complex and provide the highest level of protection such as powered respirators, SCBA, and full body suits. In Europe, PPE Category 3 must meet certain safety standards set by the European Union, which means that it must be designed and manufactured to protect the user without causing harm. Companies that make or sell PPE must prove that it meets these standards. They also must have a quality management system in place, have to be audited regularly by a notified body and have to have a technical documentation.

• CE Marking

  CE Marking is a label that shows a product meets certain safety and environmental standards set by the European Union. To get the CE Marking, a company must test and certify their product meets these standards. CE Marking is required for many products sold in the EU, including electronics, machinery, toys and medical devices. It helps ensure that products are safe for consumers and the environment, and allows for easy trade within the EU.