Payment & Shipping Terms:
|Coating:||Crinkled Latex||Material:||Nylon, Acrylic, Crinkled Latex|
|Colour:||Green + Black||Weight:||64g/pair|
|Size:||6' 7' 8' 9' 10'||Palm Pattern:||Double Dipping|
Seamless 13 gauge Nylon shell with Acrylic Liner
Crinkled Latex coating
Available in several color combinations
Latex coated gloves,Latex in glove is normally used as coatings which serverd as a barrier material for gloves. It can be catagolized into natural or synthetic sources.
It’s a product of a stable dispersion of tiny particles over liquid. Latex is very elastic and is of great grip compared with other coating materials,and it resists very much tear resistance.
Our Blue Nylon / Black foam latex glove is very light weight, has a superior grip, and is knitted to the wrist to keep out dirt. Ideally perfect for moving, packing, gardening but they can also be used for Roofing, Electrician, Plumber, Framing, Assembly, and Warehousing.
General Purpose And Work Gloves Details
Natural Rubber (Latex) – Natural rubber has been a popular glove coating material for many years. Normally supplied with a “crinkle” finish, it provides a thicker than average coating that offers good grip and mechanical protection. Natural rubber latex can cause allergic reactions in some individuals.Dipped Gloves are made by dipping a hand shaped form (with or without a liner) into a tank, or successive tanks of polymer in Liquid form.
There are two basic types of process:
Latex dipping – This is a water based process. The dipping polymer is in solution with water. This process is used for over 95% of all un-supported gloves produced around the world and is a fast process, done on a large scale. Latex dipped gloves (typically nitrile, natural rubber and PVC) are produced quickly and economically, and usually in a single dip.
Solvent dipping – Also known as cement dipping. The polymer is in solution with a solvent. This process involves multiple dips and is a relatively long and labor intensive process that produces a glove of exceptional quality. Multiple dips provide a multi-layer glove (like a glove within a glove, within a glove). A solvent dipped glove has better integrity than its latex dipped.
Natural Rubber also known as Latex is found in nature in over 200 plants, but its most common source is the Hevea Brasiliensis tree. Natural rubber dispersed in water is known as latex. Natural rubber has a very high elasticity compared to other glove materials, excellent cut and tear resistance, and outstanding grip and temperature resistance. While it is flexible and durable over a wide range of temperature, -18 to 149°C (0 to 300°F), it has poor flame resistance. In general, natural rubber withstands water, alcohols, and some ketones, but has poor chemical resistance against most hydrocarbon and organic solvents. Natural rubber can cause an allergic reaction in some people.
Nitrile Rubber is a co-polymer of acrylonitrile and butadiene. Nitrile rubber offers excellent physical hazards resistance to punctures, cuts, snags, and abrasion. While it is not flame-resistant, it demonstrates functional performance in temperatures ranging from -4 to 149°C (25 to 300°F). Nitrile rubber has considerable resistance to oils, fuels, and certain organic solvents. It is commonly used as a coating for dipped gloves and also in the construction of laminated and impregnated, cut and sewn gloves.
Polyurethane (PU) is a thermoplastic polymer of urethane. Polyurethane provides good abrasion resistance and tensile strength. Polyurethane offers good resistance to oils, some organic solvents, oxidation and ozone. It has poor resistance to hot water and is not recommended for use above 79°C (175°F). Polyurethane has a very low particulate shed, thus making it a good choice for cleanroom gloves. Polyurethane is also used in some specialty application styles and as a waterproof liner for gloves.
Polyvinyl Chloride (PVC) is a synthetic thermoplastic polymer of vinyl chloride. PVC offers good abrasion resistance but may be susceptible to punctures, cuts, and snags. While it is flexible, it does not provide the tactile sensitivity associated with most rubber products. PVC starts to soften at approximately 82°C (180°F). PVC is effective against water and most aqueous solutions, detergents, and diluted bases and acids. It only has limited chemical resistance to organic solvents. PVC is one of the more common coatings for coated work gloves.