Tegera Winter Glove For Touch Screens

Standards and labels

• EN ISO 21420:2020

  EN ISO 21420:2020 is a European standard that sets out the general requirements for hand protection, including comfort, fit, and dexterity.

  Reach out to ask about the standard test results

• 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

  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.

  Tear Resistance Level 3

  EN 388:2016 is a European standard that specifies methods for testing the resistance of protective gloves against mechanical hazards, such as abrasion, cuts, punctures, and tearing. The Tear Resistance Level 3 indicates a high level of protection, where the gloves can withstand significant tearing forces. The test for determining tear resistance involves subjecting the glove material to a mechanical force until it tears, measuring the force required to initiate and continue the tear. For Level 3, gloves must withstand a force between 50 to 75 Newtons before tearing. This robust level of tear resistance is particularly suitable for demanding environments where gloves are exposed to activities that might cause extensive wear or tearing, such as handling heavy or rough materials, industrial assembly, and construction tasks. Gloves with this level of tear resistance provide enhanced durability and safety, reducing the risk of injuries and increasing the longevity of the glove in tough working conditions.

  Cut Resistance, Coup Test Level 3

  The standard EN 388:2016 specifies Cut Resistance for protective gloves, among other standards. A result of 'Level 3' on the Coup Test means that the gloves are certified to withstand at least 5 but less than 10 cycles before being penetrated by a blade. This is based on a specific scale from Level 1 to Level 5, where Level 5 offers the highest protection against cuts. The Coup Test involves using a rotating circular blade under a fixed load moving back and forth across the glove material until cut through occurs. The number of cycles the blade can go through before cutting the fabric determines the cut resistance level. In practical terms, a Level 3 rating in cut resistance indicates that the gloves offer suitable protection for activities involving handling of materials with some sharp edges, such as construction or light assembly tasks, providing a balance between dexterity and cut protection. This level is typically recommended for tasks where there is a moderate risk of cuts and slashes.

  Abrasion Resistance Level 4

  EN 388:2016 uses a specific test method to measure abrasion resistance of safety gloves; the gloves’ material is subjected to sandpaper under pressure to observe the number of cycles needed to wear through the material. Level 4 in this standard indicates that the material withstood 8,000 cycles before a hole was made. Practically, this means that gloves rated at Level 4 for abrasion resistance offer very high resilience against wearing through, making them suitable for tasks involving significant contact with rough surfaces .

  Cut Resistance, ISO 13997 Level A

  The cut resistance result of Level A based on ISO 13997 in the standard EN 388:2016 indicates a force of greater than 2 Newtons required to cut through the material. This is considered the first level on a scale that ranges up to Level F, where each level corresponds to higher thresholds of force needed to penetrate the material, with Level F exceeding 30 Newtons. The testing method employs a TDM test device equipped with a single-use straight edge blade. During the test, the blade is drawn only once across the material in one direction, and once the blade cuts through the sample, the distance the blade has traveled is recorded. This standardized testing ensures that the cut resistance of materials like gloves can be measured more accurately, especially those fabricated from high-cut resistance materials that might blunt a blade. The practical implication of obtaining a result of Level A in this test is that the material provides basic cut protection and is suitable for tasks with minimal cut hazards, such as light material handling or small parts assembly.

• 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

  Convective Cold Level 0

  EN 511:2006 is a European standard that specifies the requirements and test methods for gloves protecting against cold. A result of Level 0 in the Convective Cold test indicates that the gloves did not provide any significant insulation against convective cold, meaning they failed this part of the test. According to this standard, testing for Convective Cold involves placing the tested gloves in a controlled cold environment where cold air is circulated around them to simulate the effect of cold winds. The glove's ability to prevent heat loss under these conditions is then measured, wherein a higher score represents better insulation from cold air. A Level 0 result implies that gloves under this classification do not offer protection against the loss of heat from convection, making them unsuitable for environments where cold wind is a factor. This information is critical for procurement professionals to ensure that they select gloves with adequate resistance to convective cold for environments requiring such protection .

  Water Tightness Level X

  The standard EN 511:2006 defines the requirements for protective gloves against cold. The reference to a Water Tightness Level X in this standard typically indicates that the glove has not been tested for water tightness. Water tightness is assessed through a specific test method where the gloves are subjected to water exposure under controlled conditions to check for leakage. The gloves are filled with water and then inspected visually to determine the presence of any water leakage. The practical implications of a Level X result for water tightness suggest that the gloves are either not designed to be waterproof or they failed to meet the minimum criteria for being labeled as water-resistant under normal usage conditions. This information is important for procurement professionals focusing specifically on the need for water-resistant or waterproof protective gloves.

  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 .

• EN 407:2020

  EN 407:2020 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 407:2004, it includes new requirements, testing methods and performance levels to ensure that the gloves provide better protection against thermal risks such as heat, fire and molten metal splash.

  Test results

  Molten Metal Resistance Level X

  EN 407:2020 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.

  Burning Behaviour Level X

  The EN 407:2020 standard's specified test result Level X for Burning Behaviour indicates that either the test was not conducted or the sample was not applicable for testing under this specific parameter. Consequently, no performance level can be assigned according the criteria set in the standard. This finding is part of a broader testing protocol where Thermal Hazards Protection levels are determined for materials, especially used in gloves intended for heat handling. The test method evaluates the material’s ability to resist catching fire and its rate of burning. To assess burning behavior, the sample is exposed to a small flame, and observations are made on whether it ignites, how long it burns after the flame is removed, and how it extinguishes. Practical implications for products that receive a Level X for Burning Behaviour could include uncertainty in performance when faced with thermal hazards, thus impacting their suitability for jobs involving high temperatures or direct contact with flames.

  Radiant Heat Level X

  EN 407:2020 is a European standard that sets the requirements for protective gloves to defend against various thermal hazards, including radiant heat. The designation Radiant Heat Level X indicates that the gloves have not been tested for this specific type of protection, or they did not meet the minimum criteria established by the standard for resisting radiant heat. This means that these gloves are not certified for protection against radiant heat, which involves the transmission of heat through infrared rays from a heat source without direct contact. The lack of a specific radiant heat protection level suggests that users should not rely on these gloves for tasks where significant exposure to radiant heat is expected. Instead, these gloves might be suitable for other types of thermal risks for which they are certified, ensuring users select the appropriate type of protective glove based on the specific hazards present in their working environment. This classification assists in preventing inappropriate glove use and enhancing worker safety by clearly indicating the limitations of the glove's protective capabilities.

  Heat Convection Level X

  In the context of EU standard EN 407:2020, a test result signifying Heat Convection Level X indicates that the protective glove tested either did not meet the minimum requirements or was not tested under this criterion. It's vital to interpret such a label as the absence of certified protection against convection heat, which may involve exposure to energetically transferred heat via fluids or gases. The test method used to determine the Heat Convection Level involves measuring the time it takes for heat to transfer from a heated aluminum cylinder through the glove material to the inner surface where it might contact skin, as specified in the standard. The testing apparatus measures the rise in temperature inside the glove to assess its heat insulating properties. Practical implications of achieving 'Level X' in convection heat test suggest that the product is either unsuitable for environments where convection heat is a risk, or it necessitates further testing to ascertain its protective capabilities in specific conditions, crucial information for procurement decisions in safety-related industries.

  Metal Splash Resistance Level X

  The EN 407:2020 standard specifies different levels of protection for gloves against thermal risks, including metal splash resistance. A result marked as 'Level X' under this standard symbolizes that the glove material either did not meet the minimum requirements for testing or that no specific test was conducted for this hazard. The test for Metal Splash Resistance in EN 407:2004 involves exposing the glove material to molten metal splashes to determine how much molten metal is required to heat the glove material to a degree that it would cause risks to the wearer. The practical implication of a 'Level X' rating is that gloves marked as such should not be relied upon for protection against risks of molten metal splashes, making them unsuitable for use in environments where exposure to this hazard is likely.

  Heat Contact Level 2

  The EN 407:2020 standard revolves around the specification for protective gloves against thermal risks, such as heat and flame. A entry marked as Heat Contact result Level 2 indicates gloves that provide moderate protection against contact with heat, capable of resisting a specific temperature of up to 250°C for a minimum exposure time determined by the Level 2 requirements. This protective level is tested primarily to ensure that users of these gloves can safely handle moderately hot surfaces without sustaining heat injuries. During the test for Heat Contact, a sample glove segment is exposed to a heat source at a specific temperature, and the time taken for the temperature inside the glove to increase by a set number of degrees (typically by 24°C) is measured. This result implies that these gloves offer sufficient protection for tasks involving significant but not extreme temperatures, making them suitable for various industrial, mechanical, and cooking operations where intermediate heat protection is necessary.

• 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.

• PPE Category 2

  PPE stands for "personal protective equipment." PPE Category 2 refers to equipment that is more complex, and has a higher level of risk. Examples of PPE Category 2 include safety helmets, ear protection, and fall arrest equipment. In Europe, PPE Category 2 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 and have to be audited regularly by a notified body.