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Seamless Nitrile Gloves
- Advanced HPPE & Tungsten 21-Gauge Liner: Constructed with a high-performance blend of HPPE (High Performance Polyethylene) and tungsten fibers, this ultra-fine 21-gauge liner delivers exceptional cut resistance while maintaining a lightweight, flexible feel.
- Durable Sandy Nitrile Palm Coating: The sandy-textured nitrile coating on a blue liner provides superior grip in both dry and oily conditions, offering excellent abrasion resistance and extending glove lifespan.
- Enhanced Comfort and Dexterity: Designed for breathability and precision handling, the glove ensures maximum dexterity, reducing hand fatigue during prolonged use while offering reliable protection in high-risk applications.
Abrasion
Tear
Impact Resistant
Cut
EN:388:4542F
CE
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ABOUT THE DESIGN
USEFUL IN THESE INDUSTRIES
AUTOMOBILE
CHEMICAL & PAINT
CONSTRUCTION
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.
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.
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.
Puncture resistances based on the amount of force required to pierce the sample with a standardly sized point. The protection factor is then indicated on a scale from 1 to 4.
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.
Product Features
ABOUT THE DESIGN
USEFUL IN THESE INDUSTRIES
AUTOMOBILE
CHEMICAL & PAINT
CONSTRUCTION
Product Details
Tests
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.
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.
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.
Puncture resistances based on the amount of force required to pierce the sample with a standardly sized point. The protection factor is then indicated on a scale from 1 to 4.
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.
