Chemical protection gloves

If you handle oils and chemicals without protecting your hands, you’re exposing yourself to risks not only to skin damage but also to damage to your nervous system and vital organs. You also risk developing skin irritation, oversensitivity and corrosion damage because of the chemicals. 


Always use our chemical protection guide, consult with our sellers, or send a request to when choosing gloves.


All Ejendals’ chemical gloves are tested and approved according to EN 374, chemical and microorganism risks. Chemical protection gloves are intended for single-day use, and sometimes for even shorter periods.



  • A glove that gives good protection against a certain individual chemical may give very poor protection against others or a mixture of chemicals.
  • As a rule, chemical protection gloves are intended for single-day use. They must not be re-used.
  • A used glove is chemically contaminated and there is a risk that the skin will be exposed to harmful substances when it is handled.
  • Higher temperatures shorten the time it takes for the chemical to break through.
  • Thicker materials generally mean longer breakthrough times (BTT).
  • At Ejendals, for gloves consisting of multiple layers (liner etc), we denote the effective thickness of the chemical protection layer with an asterisk (*). It is this thickness we use in our estimations of BTT for a certain combination of glove model and chemical.
  • Once a chemical has been absorbed, it continues to break through (permeate) the protective glove.
  • Permeation through a protective glove takes place at the molecular level and is therefore not visible to the naked eye.
  • Even the best gloves lose their protective properties if they are mechanically damaged or if the chemical has broken through the material.
  • Strongly corrosive chemicals can destroy the glove material by breaking it down before the specified breakthrough time.

PERMEATION is a process whereby the chemical is absorbed into and passes through the glove material at a molecular level.

PENETRATION involves the chemical moving through pinholes and other imperfections in the glove material.

DEGRADATION is when the glove material’s physical resistance deteriorates under the influence of a chemical.



Two chemicals with known characteristics can produce unexpected effects when mixed. Since the number of chemicals marketed is huge, it is virtually impossible to test all conceivable combinations of them. Models do exist for estimating combined effects on the basis of what is known about the component chemicals. However, they presuppose that data is available and that the various chemicals involved have the same mechanisms of action. This means that the models can only be used for groups of chemicals that act in a similar way – not for the complex mix of chemicals that we are exposed to in reality.

Contact one of our sellers and get help in finding a suitable glove for protection against the relevant chemical mix.