Read Glove Selection and Usage for more information on how to select the right glove for a job.
| Glove material |
Intended use |
Advantages and disadvantages |
| Latex (natural rubber) |
Incidental contact |
- Good for biological and water-based materials
- Poor for organic solvents
- Little chemical protection
- Hard to detect puncture holes
- Can cause or trigger latex allergies
|
| Nitrile |
Incidental contact |
- Good for solvents, oils, greases, and some acids and bases
- Clear indication of tears and breaks
- Good alternative for those with latex allergies
|
| Butyl rubber |
Extended contact |
- Good for ketones and esters
- Poor for gasoline and aliphatic, aromatic, and halogenated hydrocarbons
|
| Neoprene |
Extended contact |
- Good for acids, bases, alcohols, fuels, peroxides, hydrocarbons, and phenols
- Poor for halogenated and aromatic hydrocarbons
|
| Norfoil |
Extended contact |
- Good for most hazardous chemicals
- Poor fit (Note: Dexterity can be partially regained by using a heavier weight Nitrile glove over the Norfoil glove. Also, 4H brand gloves tend to provide better dexterity than the Silver Shield brand.)
|
| Viton |
Extended contact |
- Good for chlorinated and aromatic solvents
- Good resistance to cuts and abrasions
- Poor for ketones
|
| Polyvinyl chloride (PVC) |
Specific use |
- Good for acids, bases, oils, fats, peroxides, and amines
- Good resistance to abrasions
- Poor for most organic solvents
|
| Polyvinyl alcohol (PVA) |
Specific use |
- Good for aromatic and chlorinated solvents
- Poor for water-based solutions
|
For more glove selection charts, see Additional Resources for Glove Selection.
Questions about glove selection?
- If you are a research employee, contact an EH&S Research Assistance Program specialist.
- If you are a non-research employee, contact an EH&S industrial hygienist, (858) 534-1075.
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