Chemical resistant work gloves online stores with Excia: The risk of exposure to hazardous materials and poor-quality protective wear can limit the productivity and safety of workers. Hazardous Chemicals, Liquids, and Oil: Dealing with machines usually in contact with black oils, lubricants, aerosol Spray, gear oil, and chemicals liquids. Rough and Sharp-Edged Objects: Exposed to risks of injuries due to handling machinery works. Hand Fatigue: Long hours of working can cause discomfort in hands especially handling heavy machines or objects. The excellent grip performance of our gloves allows less force required to handle machine parts or objects, thus increasing work efficiency. Discover additional information at chemical resistant work gloves.
S-TEX: Also known as the Hagane Coil® technology, this engineered liner was originally developed for the S-TEX KV3, providing high levels of cut resistance without sacrificing comfort. It utilises a unique coiling technique that binds an attending yarn to a stainless steel core, which provides better protection than any natural or synthetic fibres, yet it is thin enough to allow flexibility and free movement as the hand bends and flexes.
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.
For protective gloves claiming impact resistance. Measures dissipation of force by the area of protection upon an impact of a domed anvil at an impact energy of 5 joules. Testing is carried out in accordance with the impact protection test for motorcycle protective gloves of EN 13594:2015 standard. A letter “P” is added on successful pass, while a fail remains unmarked. Level X can also be applied for a – f above, which means “not tested”. EN 511:2011 : This standard applies to any gloves to protect the hands against convective and contact cold down to -50ºC.
How It Works: EBT materials added to nitrile during production. Gloves are disposed of by consumers. Gloves are transferred into biologically active landfills. Microorganisms break down the EBT materials, to decompose within 1–5 years. Organic soil and biogas is left in its place. Join SHOWA and find your EBT glove below. Make the difference today. DURACoil: Since the revision of the PPE regulations in 2016, a market-wide downgrade in EN 388 and ANSI 105 cut level scores for re-certified products led to general purpose gloves for medium-low risks decreased from cut level 5-C/A3 to 5-B/A2 and under. At SHOWA, we believe in value for money, safety and comfort. Research shows that many workers use general purpose gloves with low cut resistance levels – the former EN 388 and ANSI cut 5 being B/ A2. Risks of injuries increase and worker’s safety is jeopardised.
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 info on https://excia.asia/.