Chemical resistant gloves provider 2023: Ergonomic design of protective wear ensure comfort and alleviates stress which ultimately improves machinery workers’ performance even in long hours. Ultimate Protection: Superior quality materials used to make our protective wear provides superior protection against chemical penetration and permeation. Standards & Quality : Our protective wear is in compliance with CE standards. Workers in this industry are often exposed to numerous hazards, including harmful particles, chemical splash, cuts by sharp objects, direct contact with oil, contamination, etc. Discover even more info at chemical resistant gloves.
Microfibre is synthetic fabric with very small fibres or threads. The diameter of microfibre is about 20 times smaller than a human hair. The most common types of microfibres are made from polyesters, polyamides or a combination of polyester, polyamide, and polypropylene. The shape, size and combinations of synthetic fibres are selected for specific characteristics, including softness, toughness, absorption, water repellency, electrostatics, and filtering. Features: Breathable fabric; Retains original shape; Comfort is similar to natural fibres and soft; High performance moisture wicking ability; Enhanced durability; Lightweight; Easily maintained and cleaned.
Natural cellulose fibre. Flexible, soft and non-irritating, it protects against mechanical aggression (impacts, low vibration, iron filings, splinters, glass fragments), absorbs perspiration and gives you great comfort when wearing dipped protective gloves continuously. Cotton fibres are mixed with polyester fibres in order to associate comfort with a higher mechanical resistance and more elasticity. Nylon: A lightweight elastic polyamide which is largely lint-free and washable, dries quickly and is resistant to abrasion and deformation. Mixed with cotton and acrylic, it makes the glove more flexible and extends its lifetime.
Size and tensile strength requirements for single use medical gloves. No less than 240mm in median length and 95mm (±10mm) median width to provide adequate protection along full length of the hand (exception for long cuff gloves). Strength is measured by elongation until breaking point, indicated as Force At Break (FAB) in newtons (N). FAB is measured on standard sample and on a rapid aged sample that is kept at 70°C for 7 days to simulate glove deterioration during prolonged shelf life. FAB requirements differ per glove material and if the glove is for examination or surgical purpose.
Eco Best: Same glove, better for the planet An industry first, SHOWA’s Eco Best Technology® (EBT) offers the same glove with no compromise in its quality, performance, and protection – but better for the planet. EBT accelerates the biodegradation of nitrile to organic compounds in biologically active landfills, an ability validated by independent certified laboratories using international test methods ASTM D5511 and D5526. Thanks to its special composition, SHOWA EBT gloves decompose within 1 to 5 years in active landfills, where regular nitrile gloves require over 100 years, thus reducing the impact gloves have on the environment.
Hand protection is designed to guard against a wide range of hazards, including: cuts and abrasions, extreme temperatures, skin irritation and dermatitis, and contact with oil & chemical substances. Gloves designed for protection against chemicals must comply with the standard EN374, other standards which give markings for different types of protection includes EN388, EN407, EN511, etc. The gloves must pass the air leak and/or water leak test, and meet the defined AQL inspection level. In an air leak test the interior of glove is pressurized with air and the surface is checked for holes. In a water leak test the glove is filled with water, and checked for the appearance of water droplets on the outside surface after a defined time period. See more information at https://excia.asia/.