2. 29 CFR1910 Subpart I - Personal Protective Equipment 1910.132 - General requirements. 1910.133 - Eye and face protection. 1910.134 - Respiratory Protection. 1910.135 - Head protection. 1910.136 - Occupational foot protection. 1910.137 - Electrical protective devices. 1910.138 - Hand Protection. ANSI

3. 29 CFR 1910 Subpart I - Non-mandatory App A - References for further information. App B - Non-mandatory Compliance Guidelines for Hazard Assessment and Personal Protective Equipment Selection.

4. Limitations of PPE No one material protects against all chemicals. No protective material is totally impermeable forever. May not protect against all hazards. Should be the last resort.

5. Selection Criteria Hazards Present –Chemical Hazards –Physical Hazards Tasks to be Performed Work Load Length of Exposure Climatic Conditions Decontamination Cost

6. Breakthrough Time The time it takes a chemical to pass through the protective material until it can be first detected by an analytical instrument. Will vary with the type of material.

7. Eye Protection 1910.133 and ANSI Z87.1 - Eye and face protection.

8. EYE PROTECTION Eye or face hazards: –flying particles, –molten metal, –liquid chemicals, –acids or caustic liquids, –chemical gases, –vapors, or –potentially injurious light radiation. Eye and face protection devices should protect against the intended hazard and be marked to identify the manufacturer, reasonably comfortable of proper fit, durable, capable of being disinfected, easy to clean, and in good repair.

9. Eye Protection Should provide impact protection Plastic is better than glass in most cases Spectacles – glasses without sideshields for limited hazards requiring only frontal protection. Sideshields for side protection.

10. Eye Protection Vented goggles – better protection; come in vented and one-way valve Non-vented goggles- contour- shaped rigid plastic eyecups

11. EYE PROTECTION Goggles should seal around the eyes to prevent entrance of aerosols or splashed liquids. Face shields are worn when additional protection is desired around the eyes and neck area. Face shields should be viewed as supplementary protection to goggles for a larger area of the face. They are not replacements for goggles. Goggles, for most science settings, should be of the “splash” type.

12. Eye Protection Face shield – should be worn with other eye protection Contact Lens Have back-up pair of safety glasses

13. EYE PROTECTION They should seal comfortably to the face. Ventilated frames, or specially coated lenses, are generally required to prevent fogging. Scratched faceplates compromise goggle integrity and should be disposed of. Goggles with a scratch deep enough to get your fingernail into should be eliminated immediately, as integrity has been seriously compromised. Visitors to laboratories shall be furnished with and required to wear eye safety devices while experiments are in progress.

14. EYE PROTECTION Goggles should be disassembled and thoroughly cleansed with soap and warm water. Carefully rinse all traces of soap, and replace defective parts with new ones. Swab thoroughly or completely immerse all parts for 10 minutes in a solution of germicidal deodorant fungicide. Remove parts from solution and suspend in a clean place for air-drying at room temperature or heated air. Do not rinse after removing parts from the solution because this will remove the germicidal residue that retains its effectiveness even after drying.

15. Hand and Body Protection Made of a variety of materials

16. Hand Protection When chemical exposure is a concern, the choice of an appropriate type of glove should be based on the chemical compatibility charts supplied by the glove manufacturers. These charts typically provide the performance characteristics in response to particular chemicals with regards to material degradation rating, breakthrough time, and permeations rate. Wear gloves that offer protection for all hazards you may find in the lab. Test for holes every time you wear you gloves. There are seven basic types of gloves including: –Neoprene – for sunlight, heat, organic solvents –Aluminized – for hot or cold materials –Leather—for glass, bites, sharp objects, heat, cold –Asbestos—now banned –Polyethylene – often disposable for solvents, acids, detergents –Plastic/latex – for general non-hazardous chemicals –Nitrile – for acids and organic solvents

17. Common Materials Used in PPE Polyethylene Neoprene Butyl Rubber Polyvinyl Alcohol Polyvinyl Chloride Viton Teflon Nomex Spunbonded paper Saran-type product

18. LatexVinyl Polyethylene – for general non-hazardous chemicals

19. A lightweight, flexible laminated material that resists permeation from a wide range of toxic and hazardous chemicals. It offers the highest level of overall chemical resistance, but has virtually no cut resistance. 4H – Teflon Silver shield

20. Neoprene for sunlight, heat, organic solvents

21. Neoprene A synthetic rubber material that provides excellent tensile strength and heat resistance. Neoprene is compatible with some acids and caustics. It has moderate abrasion resistance.

22. Nitrile for acids and organic solvents A synthetic rubber material that offers chemical and abrasion resistance-a very good general-duty glove. Nitrile also provides protection from oils, greases, petroleum products and some acids and caustics.

23. Polyvinyl Alcohol (PVA) A water-soluble synthetic material that is highly impermeable to gases. Excellent chemical resistance to aromatic and chlorinated solvents. This glove cannot be used in water or water- based solutions.

24. Butyl Rubber High permeation resistance to gas and water vapors. Especially suited for use with esters and ketones.

25. Viton often disposable for solvents, acids, detergents

26. Disposable Work Gloves

27. Other Layers are Made with Glove Material

28. Clothing Protection Prohibited in Lab: Open toed shoes and shoes with high heels are Short pants Loose jewelry Neck-ties should be removed when in the lab area. Long hair should be tied back when working in the lab area. Remove watch straps that are made of absorbent material. A full length lab coat or chemical resistant apron is required when working with corrosive chemicals. Aprons should protect the torso down to the knees. Basic types of aprons include: –Plastic—generally effective for oils, acids, solvents, and salts –Vinyl—best for dilute solutions of chemicals –Rubber—usually heavier, but protect against acids, solvents, alkalizes, oils, and caustics

30. Tyvek Provide protection against dust Does not provide splash protection

32. Saranax Tyvek material with plastic Some splash protection More durable than tyvek

35. CHAPTER 3…..continued –Drench Shower A working drench shower is located in a strategic location in the lab. Drench shower pull handles should be between 44” and 55” above the floor. –First Aid Kit First Aid Kits should be mounted in the classroom in a conspicuous location. The kit should be labeled and be available for immediate access. Teachers should be properly trained to recognize and use the contents of the kit for “appropriate” injuries. Use of the kit might be combined with the first aid and CPR training from qualified medical personnel. –Fire Blanket Wool fire blankets are prominently labeled and strategically located in the lab (30 steps or 15 seconds). –Fire Extinguisher An appropriate, functioning, fire extinguisher is prominently labeled and strategically located in the lab (30 steps or 15 seconds). Fire extinguishers are checked monthly. The attached red tag should be signed and dated. –Fume Hood An operational fume hood should be available in all labs when conducting experiments involving hazardous fumes. CLICK TO GO BACK TO SCIENCE TEACHER MENU PLEASE NOTE: Not all Protective Equipment will be available in all classrooms. Individual classrooms will be assessed and equipped to fit the needs of the curriculum to be presented.

36. CHAPTER 3…..continued The location of eyewash station must be identified. The eyewash station shall deliver aerated, running water for up to 15 minutes. Eyewash stations are located in strategic locations throughout the lab. Eyewash stations should be checked weekly for proper operation.