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Impact-resistant mechanical glove, natural grain leather on palm, breathable synthetic fabric back, Flexible impact resistant design name “DUDHWA” stitched on back for irreproachable performance, High cut-resistant lining inside, Self helm binding impact-resistant mechanical glove, natural grain leather on palm, breathable synthetic fabric back, Flexible impact resistant design name “DUDHWA” stitched on back for irreproachable performance, High cut-resistant lining inside, Self helm binding.
Key Features
- Metacarpal protected high cut resistant leather driver glove.
- Glass fiber blended para-aramid lining inside.
- Green flexible
- Natural grain palm and yellow synthetic fabric back.
Design :
- Metacarpal protector patch stitched on mechanical style glove.
- Impact resistance capabilities complies with EN 388:2016 standard.
- Customizable for printing other brand names on impact guard.
- Customizable impact guard colour option as per adjacent surface.
Product Make :
| Material | Grain leather | |
| Cuff | Elasticated cuff | |
| Lining | Fibre Glass | Para-Aramid |
| Piping | None |
Size:
| Universal | 6 | 7 | 8 | 9 | 10 | 11 |
Industry / Job : Construction & Civil, Mining & Metallurgy, Repairs & Maintenance, Warehousing & Assembling
Hazard / Risk : Cut, Puncture, Impact, Heat, Slip
How To Use
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Limits to use: To be worn on the hand to avoid mechanical hazard (e.g. Abrasion, cut, Tear, Puncture, impact). This glove does not contain a substance known as being carcinogenic, neither toxic nor likely to cause allergies to the sensitive people.
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Instructions for storage: Store in a cool, dry place; away from frost and light in their original packaging.
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Instructions for cleaning: It is generally recommended that leather gloves be dry cleaned. Soap and water remove the natural oils present in the leather, causing them to stiffen and become brittle.
Tests Conducted
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Abrasion as per EN 388 is 4: Resistance to abrasion Based on the number of cycles required to abrade through the sample glove (abrasion by sandpaper under a stipulated pressure). The protection factor is then indicated on a scale from 1 to 4 depending on how many revolutions are required to make a hole in the material. The higher the number, the better the glove.
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Cut as per EN 388 is 5: Blade cut resistance Based on the number of cycles required to cut through the sample at a constant speed. The protection factor is then indicated on a scale from 1 to 5.
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Tear as per EN 388 is 3: Tear resistances Based on the amount of force required to tear the sample.The protection factor is then indicated on a scale from 1 to 4.
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Puncture as per EN 388 is 2: Puncture resistances Based on the amount of force required to pierce the sample with a standard sized point. The protection factor is then indicated on a scale from 1 to 4.
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TDM blade cut resistant as per EN 388 is C: TDM blade cut resistant The glove sample is placed on a conductive strip and loaded onto the TDM-100. When the metal blade touches the metal strip, the test is terminated. A straight blade is loaded into the machine. Weight is added to serve as a force. The blade moves across the fabric. The blade is replaced with a new one to ensure accuracy. The sample is cut five times, each with three different loads.The distance traveled to cause cut through at various forces is recorded. The data is used to determine the load required to cut through the sample ".
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Impact test level as per EN 388 is P: Impact Test: In this test, gloves are cut, opened out flat, so that the area of impact protection can be tested independently, and secured over a domed anvil. The test area is impacted with a 2.5kg flat face striker from a sufficient height to provide impact energy of 5J. The peak force – detected by a load cell or sensor mounted beneath the anvil – is recorded.
