Best rated chemical resistant hand protection gloves online shopping: 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. See extra info at chemical resistant gloves.
The name of our new technical innovation used in the liners of our DURACoil products comprises of 2 words: DURABLE = the gloves are designed for maximum comfort, to be worn for extended periods of time for a wide range of medium-low risk applications COIL = the wrapping technique where fibers are coiled around the other in layers, thereby increasing the level of resistance. Benefits: Imagine all you can do with a consolidated cut series! Good resistance against cuts, snags and tears; Upgraded mechanical risk protection for general purpose activities; Soft, lightweight and ultra-comfortable with no skin irritation; Excellent fit and dexterity; Increased productivity with durable protection for multipurpose & cut risks; Consistent high quality & unmatched level of service.
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).
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.
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. Read more info on https://excia.asia/.