1. Hand protection By A.H.Mherparvar

2. Hand protection  Skin contact a potential source of exposure to toxic materials  Four main hazard categories: chemicals, abrasions, cutting, and heat  Gloves available that can protect workers from any of these individual hazards or any combination thereof

3. Introduction  Gloves should be replaced periodically, depending on frequency of use and permeability to the substance  Gloves overtly contaminated should be rinsed and then carefully removed after use  Gloves should also be worn whenever it is necessary to handle rough or sharp-edged objects, and very hot or very cold materials  leather, welder’s gloves, aluminum-backed gloves, and other types of insulated glove materials

4. Common types of gloves  Disposable Gloves Usually made of light-weight plastic against mild irritants  Fabric Gloves Made of cotton or fabric generally used to improve grip when handling slippery objects insulate hands from mild heat or cold

5.  Leather Gloves Against injuries from sparks or scraping against rough surfaces used in combination with an insulated liner when working with electricity  Metal Mesh Gloves To protect hands form accidental cuts and scratches Used most commonly by persons working with cutting tools or other sharp instruments

6.  Aluminized Gloves made of aluminized fabric designed to insulate hands from intense heat most commonly used by persons working molten materials  Chemical Resistance Gloves Protect hands from corrosives, oils, and solvents Rubber Neoprene polyvinyl alcohol Vinyl

7. Chemical resistance gloves Natural rubber Advantages:  Low cost, good physical properties, dexterity Disadvantages:  Poor vs. oils, greases, organics Uses:  Bases, alcohols, dilute water solutions  fair vs. aldehydes, ketones

8. PVC Advantages:  Low cost, very good physical properties, medium chemical resistance Uses:  Strong acids and bases, salts, other water solutions, alcohols

9. Neoprene: Advantages:  Medium cost, medium chemical resistance, medium physical properties Uses:  acids, anilines, phenol, glycol ethers

10. Nitrile: Advantages:  Low cost, excellent physical properties, dexterity Disadvantages:  Poor vs. benzene, methylene chloride, trichloroethylene, many ketones Uses:  Oils, greases, aliphatic chemicals, xylene, perchloroethylene, trichloroethane  fair vs. toluene

11. Butyl Advantages:  Specialty glove, polar organics Disadvantages:  Expensive, poor vs. hydrocarbons, chlorinated solvents Uses:  Glycol ethers, ketones, esters

12. PVA: Advantages:  Specialty glove, resists a very broad range of organics, good physical Disadvantages:  Very expensive, poor vs. light alcohols Uses:  Aliphatics, aromatics, chlorinated solvents, ketones (except acetone), esters, ethers