Chemical resistant work gloves manufacturer 2023

High quality chemical resistant gloves online shopping: Excia is an Asia user-oriented Personal Protective Equipment (PPE) solution provider that have been serving Asian’s users more than 22 years by empowering people to work efficiently in a comfortable and safe environment. Our commitment to highest Quality of Products and Maximum Customer Satisfaction are reflected in our certification of ISO 9001:2015 Quality Management System. We provide expertise and product solutions covering multiple industries such as machinery, automotive, food processing, etc. Find additional info at 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.

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.

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.

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. Read additional details at https://excia.asia/.