Ansell AlphaTec 58-735

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

  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.

  Metal Splash Resistance Level X

  The EN 407:2004 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 pain or injury 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.

  Burning Behaviour Level X

  The EN 407:2004 standard addresses the burning behavior of gloves protecting from heat and/or fire. A performance level X in this context indicates that the glove has not been submitted for testing under the specified part of the standard or failed the test.

  Heat Contact Level 1

  The standard EN 407:2004 on Protective gloves against thermal risks, including the testing for contact heat at Level 1, is designed to assess the protection level of gloves when exposed to thermal hazards. A Level 1 result on the contact heat resistance indicates basic protection where the glove can delay the transfer of heat from a contact source at 100°C for at least 15 seconds before the inside of the glove reaches a temperature increase of 10°C. The test method involves placing the outer surface of the glove in contact with a hot probe of defined dimensions and temperature, while the rate of temperature rise of a calorimeter on the inside of the glove is measured. This measurement provides a straightforward metric for assessing the thermal protection offered by the glove at low-level exposure. Practically, gloves rated at Level 1 for contact heat are suitable for environments where exposure to thermal risks is minimal and not excessively severe, making them adequate for certain low-risk industrial, laboratory, or handling applications where brief contact with warm objects is common.

  Heat Convection Level X

  The EN 407:2004 European standard and its annexure for Heat Convection Level X is designed to gauge the protective capability of gloves when exposed to heat transmitted through a fluid medium, such as air or steam. The designation of Level X specifically indicates that the material did not meet the minimum requirements set forth in the test, or wasn't tested due to being deemed unsuitable for this type of exposure based on the nature of the material. The test method for determining this involves measuring the time it takes for the material to increase in temperature by 24°C under standardized conditions of convection heat exposure. This test is important for defining the efficacy of protective gear under various industrial conditions where heat convection is a risk.

  Radiant Heat Level X

  EN 407:2004 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.

• 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 1149-3:2004

  EN 1149-3:2004 is a European standard that specifies the requirements for electrostatic dissipative (ESD) footwear. The standard defines performance requirements for material, design, and testing of ESD footwear. The footwear must be able to effectively discharge static electricity and protect the wearer from ESD. Testing includes measuring the surface resistance of the footwear material. Pass/fail results are based on the footwear meeting or not meeting the specified requirements.

  Test results

  Electrostatic Properties Tested

  The EN 1149-3:2004 standard specifies the test method for assessing the electrostatic properties of materials, specifically their ability to dissipate an electrostatic charge. The crucial test result for the standard is that a material must have a half decay time of less than 4 seconds or a shielding factor greater than 0.2 to meet the criteria stipulated by EN1149-5. This is determined through a testing process where a specimen is subjected to an induction effect that charges the material. Its ability to dissipate this charge is then measured by recording the decrease in field charge observed by a probe positioned above the test surface. The practical implications of this result for materials, especially in safety and protective clothing, are significant as it ensures that the material can quickly neutralize electrostatic charges, reducing the risk of discharge sparks in environments where flammable or explosive gases may be present.

• 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, 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.

  Cut Resistance, ISO 13997 Level X

  The standard EN 388:2016, specifically its segment referring to ISO 13997 test, is designed to assess the cut resistance of materials used in protective gloves. A result denoted as 'Level X' means that test is not performed and the cut resistance of the product cannot be guaranteed.

  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.

  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.

  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 .

• EN 1149-2:1997

  EN 1149-2:1997 is a standard for electrical arc protection for protective clothing. It establishes performance requirements for materials and garments used in protective clothing to protect against electrical arcs. The standard includes tests for measuring the arc resistance, material flammability, and garment construction. Possible test results include pass/fail for each of these categories.

  Test results

  Performance Tested

  The EN 1149-2:1997 standard is designed to assess the electrostatic properties of protective clothing, specifically measuring the electrical resistance through a material, referred to as vertical resistance. Evaluating the test result involves determining how well the protective fabric can prevent a build-up of static electricity, which is vital for safety in environments where electrical discharges could pose a fire or explosion risk. The test method includes applying a voltage across a fabric sample while it is sandwiched between two electrodes, and the resistance is measured at both high and low voltage levels to ensure accuracy. Businesses must consider this result when selecting protective clothing for environments with potential electrical hazards, ensuring that the material has adequate resistance to prevent static electricity build-up and provide a safeguard against electrostatic discharges in volatile work conditions.

• EN 1149-1:2006

  EN 1149-1:2006 is a European standard that specifies the requirements for electrostatic discharge (ESD) protective clothing. The standard defines the performance requirements for material, design, and testing of ESD clothing. The clothing must be able to effectively discharge static electricity and protect the wearer from ESD. Testing includes measuring the surface resistance and charge decay of the clothing material. Pass/fail results are based on the clothing meeting or not meeting the specified requirements.

  Test results

  Surface Resistance Tested

  The standard EN 1149-1:2006 specifies the methodology to measure surface resistance in order to assess the electrostatic properties of materials, typically used for protective clothing. A result specifying surface resistance under this standard means the material has been assessed for its ability to dissipate electrostatic charges, which is crucial in environments where electrostatic discharges can be hazardous. The test involves measuring the resistance of the material surface using electrodes to determine if the resistance value is less than 2.5 × 10(9) ohms, which is the threshold for compliance. This threshold ensures that the material can effectively dissipate electrostatic charges, thereby enhancing safety in electrostatic-sensitive environments. For procurement professionals, understanding that a product meets this standard indicates suitability for use in applications where electrostatic discharge poses a risk, such as in electronic assembly or explosive atmospheres.

• 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.

• Food Safe

  Food safe refers to the safety of food products that are used or consumed by people. In Europe, food safety is regulated by the European Union (EU) and the European Food Safety Authority (EFSA). These organizations set standards and requirements for food products to ensure they are safe to eat. To be considered "food safe" in Europe, a product must meet these standards and be free of harmful substances. This includes being free of harmful bacteria, pesticides, and other contaminants. Food products that do not meet these standards cannot be sold or used in the EU.

• Oeko-Tex Standard 100

  Oeko-Tex Standard 100 is a product certification program for textiles, which is awarded by the Oeko-Tex Association. This program verifies that the textile products are free from harmful chemicals. To be able to use the Oeko-Tex Standard 100 label, a product must meet certain requirements set by the Oeko-Tex Association which include limits on the levels of harmful substances such as pesticides, heavy metals, and formaldehyde. The textile products are inspected and certified by Oeko-Tex, they can use the Oeko-Tex Standard 100 label on their packaging to show that they are free from harmful chemicals. This certification is for all types of textiles, from raw materials to finished products, and it is globally recognized.

• 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.