Best chemical resistant hand protection gloves manufacturer: 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 extra info at chemical resistant 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.
HPPE: High-performance poly ethylene (HPPE) is flexible, light and durable. As resistant to cutting as a para-aramid but with more resistance to abrasion (ten times more resistant to flexion than a wire), it remains resistant to chemicals, in particular solvents. A proper glove fit is crucial in ensuring the dexterity of the working hand. If the glove is too small, it cuts off blood circulation and restricts movement. On the other hand, a glove that is too large may slip off easily and make handling imprecise.
The EN 388 standard underwent revision in 2016. SHOWA gloves are in the process of being recertified by the notified bodies to conform to the revised standard. Currently reported ISO 13997 cut resistance values are indications until officially certified. In the meantime the existing certificates according to EN 388: 2003 remain valid. ABRASION RESISTANCE (0-4) : Number of cycles required to abrade a hole using abrasive paper in a circular sample of glove material under constant pressure and motion. Number of cycles required to cut a sample using a stainless steel circular blade under constant speed and low force of 5 newtons (approx. 510g). For materials that dull the blade, after a certain number of cycles without cut through, the ISO 13997 test is performed and becomes the reference cut resistance value.
Breathex Foam: This dual-latex coating technology allows gloves to be both breathable and liquid resistant, providing premium grip and dexterity with breathability in dry or wet environments, no matter the outdoor conditions. How It Works: Aerated latex foam covers 13 gauge liner to allow warm air to escape, so your hands can breathe and perspiration is reduced. Full foam latex coating is impermeable, preventing liquid from penetrating the glove and therefore keeping your hands dry. Extra latex coating on palm and fingers provides excellent grip and dexterity.
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 even more details at https://excia.asia/.