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New edition ANSI/ISEA 105-2024 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.

The ANSI/ISEA 105-2024 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3884-09 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher Abrasion Level.

The ANSI/ISEA 105-2024 blunt force puncture testing uses a probe to simulate a tear or burst hazard. The test measures the amount of force needed for a blunt probe to pierce through PPE material. Results are given in Newtons, which is converted into a 1-5 scale and spans from 10 newtons (Level 1) to 150+ newtons (Level 5) of puncture resistance.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

The EN ISO 374-5 standard measures the ability of gloves to protect users against bacteria and fungi. Gloves with this marking must pass EN374-2 for leak testing.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

New edition ANSI/ISEA 105-2024 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

The EN ISO 374-5 VIRUS standard measures the ability of gloves to protect users against bacteria, fungi and viruses. Gloves with this marking must pass EN374-2 for leak testing.

EN 16350 European standard defines the test conditions and requirements for electrostatic properties of protective gloves used in ATEX area (Atmosphere Explosive). The vertical resistance must be below 10⁸ Ω.

ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

The EN ISO 374-5 VIRUS standard measures the ability of gloves to protect users against bacteria, fungi and viruses. Gloves with this marking must pass EN374-2 for leak testing.

EN 16350 European standard defines the test conditions and requirements for electrostatic properties of protective gloves used in ATEX area (Atmosphere Explosive). The vertical resistance must be below 10⁸ Ω.

ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

The EN ISO 374-5 VIRUS standard measures the ability of gloves to protect users against bacteria, fungi and viruses. Gloves with this marking must pass EN374-2 for leak testing.

EN 16350 European standard defines the test conditions and requirements for electrostatic properties of protective gloves used in ATEX area (Atmosphere Explosive). The vertical resistance must be below 10⁸ Ω.

ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

The EN ISO 374-5 VIRUS standard measures the ability of gloves to protect users against bacteria, fungi and viruses. Gloves with this marking must pass EN374-2 for leak testing.

EN 16350 European standard defines the test conditions and requirements for electrostatic properties of protective gloves used in ATEX area (Atmosphere Explosive). The vertical resistance must be below 10⁸ Ω.

ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

New edition ANSI/ISEA 105-2024 outlines a new test method for determining cut scores and a revised scale from A1-A9. Click here for more information about the new testing standard.

The ANSI/ISEA 105-2024 standard outlines test methods for abrasion and is scored from 0-6. The ASTM D3884-09 is used for uncoated gloves and the end point (failure) is the number of abrasion cycles when the first thread or yarn is broken. The larger numbers of cycles indicates greater abrasion resistance of the product and a higher Abrasion Level.

EN 388 is a European Standard. Cut Level is determined by the number of cycles it takes a spinning circular blade, that is pulled across the material under a constant weight of 500 grams, to cut the fabric. As the number of cycles increase, so does the glove's ratings. Click here for more information about the EN 388 2016 standard.

The EN 511 standard specifies the requirements and performance levels of work gloves against cold as low as -50°C. Protective devices against: convective cold, contact cold and water penetration. Convective and contact tests are graded on a scale from 0 to 4, with 0 signifying that the glove failed the test, and 4 demonstrating it has achieved the maximum resistance in that specific area. Water permeation is grade on a scale of 0 to 1 where 0 indicates “water penetration after 30 minutes” and 1 indicates “no water penetration after 30 minutes”.