Ambidextrous gloves can be worn equally well on either hand; this is principally the case for thinner gloves.
A glove is called anatomical when there is one shape for the left hand and another for the right.
An ATEX zone is an area where solvent or dust concentration may create a risk of explosion. Gloves in ATEX area are usually called ”ATEX gloves”
Butyl offers excellent chemical resistance against ketones, acids, esters and amine derivatives. It is a supple and elastic synthetic material, allowing the user to retain dexterity if the material is not too thick. As it is quite expensive, butyl is classed as a specialpurpose polymer, reserved for applications requiring very high, targeted, chemical protection.
NB: butyl has poor mechanical properties when heavily stressed in chemical environments. In those conditions, a thick glove, with a cotton lining is recommended, since this reinforces the mechanical properties of the glove, and therefore its durability. In addition, butyl is not appropriate for prolonged contact with aromatic or chlorinated solvents, as these provoke rapid deterioration of the material.
- Degradation index
The degree of deterioration of the glove, shown by an alteration of its physical properties (e.g. softening, hardening, etc.).
Dimethylformamide (or DMF) is a solvent used in a variety of applications in the chemical industry. DMF is also used in the manufacturing process for gloves made of polyurethane (PU) and derivatives. DMF is a chemical which, during use, can be inhaled or absorbed through the skin. It is classified as harmful by inhalation and skin contact. In case of long-term or repeated exposure, DMF may have effects on the liver. Occupational exposure limits have been defined in several countries and these limits indicate maximum concentration in the air with which MAPA gloves in polyurethane are compliant.
Cotton-based textile fibres, covering the inside of the gloves. Fleeced feel providing good absorption of perspiration.
Fluoroelastomer, a high performance polymer, is recommended for prolonged contact with aromatic solvents, sulphur-based chemicals and amines.
The Mapa Professional multi-layer technology creates an especially supple fluoroelastomer glove, with high chemical resistance.
Fluoroelastomer is an expensive material. It is classed as a specialpurpose polymer, reserved for applications requiring very high, targeted, chemical protection.
Beware: fluoroelastomer is not recommended for prolonged contact with ketones, organic acids and acetates.
- Grip and Proof
A technology that combines liquid resistance and grip: the solution for oily and/or dirty environments.
- Natural latex
This polymer offers good mechanical performance, even with minimal thickness. In particular, it has good tear and puncture resistance, and it offers good resistance to numerous acids, alkalis, alcohols and ketones.
It also has the advantage of staying supple in cold environments.
N.B.: In certain rare cases, the proteins found in natural latex can cause allergic reactions. In this event, we recommend the use of synthetic materials for sensitised users, such as a nitrile or neoprene glove.
Natural latex is not recommended for use in contact with oils, greases, petroleum products, strong oxidising acids and aromatic or chlorinated solvents. The properties of natural latex can be deteriorated by prolonged exposure to light, UV or ozone.
Extremely supple with excellent resistance to chemical contact, neoprene is an outstanding multi-purpose polymer. Neoprene offers good chemical resistance to acids, alkalis, oils, greases, alcohols, petroleum products, ketones, aliphatic solvents and numerous industrial gases and vapours). In addition, it is a supple material enabling dexterity and comfort.
It has excellent thermal properties, with contact insulation (hot or cold), and fire resistance (suitable for applications in proximity to flames). It also ages well, since it does not suffer from any deterioration, due to prolonged exposure to light, ozone, UV, etc.
On the other hand, we should point out that neoprene has poor mechanical properties when heavily stressed in chemical environments. In those conditions, a thick glove with a cotton lining is recommended, since this reinforces the mechanical properties of the glove, and therefore, its durability. Neoprene is not appropriate for prolonged contact with strong oxidising acids and aromatic or chlorinated solvents, since these rapidly damage neoprene.
Nitrile also gives excellent abrasion and puncture resistance. It does not contain any proteins and has a very low accelerator content, therefore, it is very well-tolerated by users, paticularly for long-term wear.
On the other hand, nitrile is a naturally rigid elastomer. Thick nitrile gloves may limit dexterity.
In addition, they are not recommended for cold environments (< -40°C), since these temperatures cause nitrile to stiffen, which makes the glove more difficult to use. Note, that nitrile is not recommended for prolonged contact with ketones, strong oxidising acids, esters or aldehydes.
- Permeation time
The time taken for the chemical to penetrate the glove at a molecular level. In some cases, there is no visible deterioration of the glove.
Makes it easier to put gloves on and take them off, without having to increase the thickness of the glove.
PVC, or polyvinyl chloride, provides good resistance to numerous acids and alkalis, and is associated with good mechanical resistance where the gloves are lined with fabric. PVC does not contain allergens such as proteins or accelerators, and so is well-tolerated by users.
PVC gloves are not recommended for situations where they may come into contact with chemical solvents (ketones, alkanes, etc.). Contact with these products leads to the extraction of the plasticisers, and, as a result, the glove stiffens.
PVC gloves must not be used for handling hot parts (>80°C), to avoid their deterioration.
- Textile support
Knitted interior, made from cotton or synthetic materials for increased comfort. Particularly suited to extended tasks.