Choosing oil and petrol resistant gloves

When working with fuels and lubricants, oil-resistant or petrol-resistant gloves are required to protect hands. But how do you choose them? Which material is better - natural or synthetic, vinyl or latex?

Gloves that protect hands from the chemical attack of liquids are essentially coated gloves. To be completely resistant, they must be completely covered. The coating material should not only be resistant to water, oils and petrochemicals, but also provide good adhesion to wet oily surfaces. The durability of the material is also important, otherwise the gloves will have to be changed frequently. And, of course, convenience and comfort at work are also very important.

Oil and petrol resistant (MBS) gloves can be latex, nitrile, PVC or neoprene. Each of these materials has advantages and disadvantages. Latex (rubber) gloves are made from natural rubber, so they are soft and thin, but strong and elastic.

Latex provides an excellent fit, working movements are unrestricted, and fingers maintain tactile sensitivity, which is very important when working with small parts. The interior is usually powder coated for easy donning and doffing. The main disadvantage of latex is that it can cause skin allergies. It is also very difficult to detect breaks or punctures in this material. However, in cases where strong protection is not required, this is a good inexpensive option.

Nitrile is a synthetic material, a copolymer of acrylonitrile and butadiene, which is highly resistant to hydrocarbon oils and fuels. The higher the acrylonitrile content, the higher the resistance of the material, but the lower the elasticity. Nitrile is 3 times more puncture and tear resistant than rubber. It does not contain latex and therefore does not cause allergic reactions. The operating temperature range is -4 ° C to 149 ° C. In addition, nitrile can foam, therefore, when in contact with smooth oily surfaces, it behaves like an oil-absorbing sponge. This removes oil from the surface and improves grip.

Polyvinyl chloride (PVC), a synthetic thermoplastic polymer of vinyl chloride, is the most common material for work gloves. The manufacturing process is quite simple and very similar to the rubber manufacturing process. But since it is completely synthetic, it does not cause allergic reactions and, therefore, has a wider range of applications. Although it is inferior in elasticity to natural rubber, it is valued for its high strength.

PVC gloves are often used in the petrochemical industrybecause they are resistant to many petroleum products. PVC also effectively protects against water and most aqueous solutions, detergents and acids. Another advantage of this material is that it remains elastic even at low temperatures, which allows it to be used for the production of winter insulated gloves.

And here it is not suitable for working with hot parts (> 80 ° C), as it begins to soften at these temperatures. Also, PVC is not recommended for working with chemical solvents, since this removes plasticizers, and as a result, the material seems to solidify. PVC gloves can be stored for a long time without any changes in their properties, since they are not affected by ozone and ultraviolet rays.

Neoprene was developed as an alternative to natural rubber and is especially appreciated for its high oil resistance. It is used to work with all kinds of petroleum products, greases, oils and gasoline. In addition, neoprene is resistant to other chemicals:

• hydraulic fluids;

• alcohols;

• organic acids;

• alkalis.

The type of material from which they are made and its thickness have the greatest influence on the level of chemical protection of gloves. The thicker the material of the gloves, the higher their chemical resistance. However, this reduces finger sensitivity and grip. The size and fit of the gloves must also be considered as a prerequisite for comfort, productivity and safety at work. Gloves should be sized to fit the natural contour of the hands.

Hands get tired from working in tight gloves, and too large gloves are uncomfortable, difficult and even dangerous to work in them. When choosing the right gloves, the following sequence of steps is recommended.

1. Determination of substances from which hands must be protected.

2. Selection of the material that best meets the protective criteria.

3. Choice of length of gloves. The length depends on the intended immersion depth and takes into account possible splash exposure.

4. For small precision work requiring high sensitivity, thin gloves are needed. If increased protection or durability is required, thick gloves should be chosen.

5. The size should provide maximum convenience and comfort when working.

The protective properties of gloves may change over time depending on storage conditions. Latex, as a natural material, is most susceptible to destruction under unfavorable conditions. Gloves should be stored in a cool, dry place away from direct sunlight. Before use, they must be carefully inspected to ensure there are no signs of deterioration or damage.

The following video provides an overview of one of the models of oil-resistant gloves.