Chemical resistant gloves provider by excia.asia: We are Asia user-oriented Personal Protective Equipment (PPE) solution provider where we have been serving Asian’s users more than 22 years by empowering people to work efficiently in a comfortable and safe environment. Our mission is to create a comfortable workplace that assists business and households enhance efficiency and productivity. We do this because comfortability, functionality, and dexterity in PPE are necessary now more than ever. Read even more information on chemical resistant work 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.
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.
Degradation is the deleterious change in one or more properties of a protective glove material due to contact with a chemical. Indications of degradation can be delaminating, discoloration, hardening, softening, dimensional change, loss of tensile strength, etc. It is determined by measuring the percentage change in puncture resistance of the glove material after a continuous contact for 1 hour of the external surface with the challenge test chemical. The results of the degradation test must appear in the information leafet for all three glove types. Find more details on https://excia.asia/.