Chemical resistant gloves manufacturer today: 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. Read more details on 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.
Arcylic: A polymer that is resistant to water, common solvents, acids and weak alkalis, and that is resistant to abrasion and to traction. Soft and warm, it insulates you from the cold. Mixed with cotton, it makes the knit more lightweight. Aramid: It is lightweight, supple, comfortable and washable. It provides effective protection from cuts (above level 5, with stainless steel reinforcing) and from convective heat and offers durability and performance that far exceed that of leather (5 times higher) and cotton (3 times higher).
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.
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.
Micro-organisms are defined by the standard as bacteria, fungi or viruses. To claim resistance to bacteria and fungi the glove must pass the penetration resistance test according to standard EN 374-2: 2014. If the glove passes ISO 16604: 2004 (method B) test it can claim resistance to viruses as well, and the term “VIRUS” will be added below the biohazard pictogram. AQL (accepted quality level) is a measure of quality assurance based on random sampling procedure according to ISO 2859-1 used by manufacturers for measuring the likelihood of pinhole defects in a batch of gloves. An AQL of 1,5 accepts the statistical probability that there are less than 1.5% of the gloves with defects in the batch. Discover extra details on https://excia.asia/.
