1 / 28

Health hazards in the ME labs

Health hazards in the ME labs. Anca Bejan ( ab4@vt.edu , 1-2509) Environmental, Health and Safety Services. Outline. Routes of exposure Exposure control Limits of exposure Epoxy resins/systems Fiberglass Personal Protective Equipment selection Respirator use at VT. Routes of exposure.

kenton
Télécharger la présentation

Health hazards in the ME labs

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Health hazards in the ME labs Anca Bejan (ab4@vt.edu, 1-2509) Environmental, Health and Safety Services

  2. Outline • Routes of exposure • Exposure control • Limits of exposure • Epoxy resins/systems • Fiberglass • Personal Protective Equipment selection • Respirator use at VT

  3. Routes of exposure • Inhalation • Ingestion • Skin/eye contact

  4. Exposure controls • Engineering controls (ventilation, enclosures, substitution of material) • Administrative controls (work practices) • Personal Protective Equipment (eye protection, gloves, foot protection, respirators)

  5. Exposure limits • Are there any “safe” limits of exposure? • YES • Susceptibility to effects also depends on: pre-existing medical conditions, age, gender, lifestyle choices, genetic factors, medications, physical exertion, etc. • OSHA – enforcement (most limits are from early 1970s) • ACGIH, AIHA, NIOSH – recommended limits based on most recent studies on animal or human health effects • Limits are set as 8 h TWA, 15 min TWA, Ceiling (ppm, mg/m3) • Excursion limits • Limits are intended to protect “nearly all workers” from adverse health effects while working 40 h weeks for about 40 years

  6. Health effects • Adverse health effects • Acute (immediate or delayed reaction) • Chronic • Nature and intensity of effects depends on: • Intensity of exposure • Duration of exposure • Type of exposure • Health condition • Additive effect, chemical mixtures, etc

  7. Determining contaminant concentration in air • Personal sampling • Pumps • Specific filters • Sampling tubes • Clorimetric tubes • Portable instruments

  8. Determining contaminant concentration in air • Your nose is NOT a reliable instrument • Olfactory fatigue • Odor treshold vs PEL, STEL, Ceiling Acetone: 16-600 ppm (OSHA PEL: 1000 ppm ACGIH TLV: 500 ppm) Styrene: 0.04-0.32 ppm (PEL: 100 ppm, TLV: 20 ppm) Methylene Chloride: 25-320 ppm (PEL: 25 ppm, STEL: 125 ppm, TLV: 50 ppm) Fiberglass: no OT; TLV: 0.1 f/cc

  9. Epoxy systems • Used in composite materials • Cure at room temperature • Have two parts: epoxy resin and curing agent • Epoxy resin: epichlorohydrin and bisphenol-A • Curing agent: a combination of amine compounds

  10. Epoxy systems

  11. Epoxy systems- Health effects of the components Epichlorohydrin- skin sensitizer, URT irritant, affects male reproductive system; known animal carcinogen Bisphenol A- endocrine disruptor Amines- may induce asthma and URT sensitization; some are carcinogens Solvents- 2 ethoxyethanol (EGEE) and 2- methoxyethanol (EGME) affect the male reproductive system and may produce embrio/fetal damage Solvents- affect CNS and PNS

  12. Epoxy use in the WARE lab MAS Epoxies www.masepoxies.com, look for MSDS info

  13. MSDS • Material Safety Data Sheet (MSDS) • Contains information about chemical composition of the product, hazard information, first aid measures, storage, handling and PPE requirements, fire fighting measures, accidental release measures, etc. • Every product used in the WARE lab must have an MSDS on file YOU MUST BE FAMILIAR WITH THE MSDSs OF THE PRODUCTS YOU ARE USING!!! KNOW WHERE THEY ARE LOCATED IN THE LAB AND HAVE A COPY WITH YOU IF YOU NEED TO GO TO THE HOSPITAL

  14. MAS- Low viscosity epoxy resin

  15. MAS -resin So what is the chemical composition of this resin? - DGE-BPA (diglycidyl ether of bis-phenol A) - Novolak - Two-step resins made by reacting epichlorohydrin with phenol formaldehyde condensates(has more than just 2 groups of epoxy per molecule) (http://composite.about.com/library/glossary/e/bldef-e2003.htm) - epoxy diluents (solvents)

  16. MAS- medium hardener

  17. More info

  18. Working safely with epoxy resins • Avoid all direct skin contact with resin, hardeners and mixed epoxy by wearing gloves and other clothing. Clean any uncured epoxy off the skin with waterless soap immediately after contact. NEVER use solvents to remove epoxy from the skin. Always wash thoroughly with soap and water immediately after contact. • B.Protect your eyes by wearing protective eye wear. If contact should occur, flush eyes immediately with running water for 15 minutes. If discomfort continues, seek medical attention. • C.Avoid breathing vapors. Use epoxy only in areas with good ventilation. In small areas, be careful have a supply of fresh air and to exhaust any fumes. Wear a respirator with an organic vapor cartridge. Wear a dust mask when you sand the epoxy. If it has cured for less than a week, use a respirator with the organic vapor in combination with a dust pre-filter. • D.Avoid ingestion. Wash thoroughly after each use and especially before eating or drinking. • http://masepoxies.com/mas8.htm

  19. Fiberglass • Used as filler (fibers of different sizes and composition) • Used as woven material

  20. Fiberglass exposure • Occurs when the fibers become airborne: • Sanding • Polishing • Shearing/cutting • Mixing • Routes of exposure: inhalation, skin/eye contact, ingestion

  21. Fiberglass-health effects • Depend on the physical dimensions and composition of the fiber (in addition to the factors mentioned previously) • Irritation and infection of nasal mucuous membrane • Lung fibrosis • Skin irritation

  22. Exposure control • Use appropriate ventilation! • Do NOT dry sweep. Vacuum or wet the dust before cleaning!

  23. Exposure control • Always use gloves • Wear long sleeves shirts, long pants and shoes (NO sandals) • Do NOT take contamination home!! • Always wash hands and face before leaving • Change in “work clothes” when you are in the lab • When taking them home use a closed bag • Launder them separately

  24. What kind of gloves? • Very few gloves are suitable for use with all the chemicals you might encounter in the lab • Know where to find info about the right kind of glove (MSDS, glove manufacturer charts, etc) • Epoxy – manufacturer recommends neoprene glove • Acetone – butyl glove ONLY • Disposable latex gloves are NOT intended for protection against chemicals and may induce sensitization to the latex protein

  25. Glove selection chart

  26. Respirators • Recommended ONLY when engineering and administrative controls are not sufficient to minimize exposure • Last line of defense • Can be a health hazard to the user • Have several limitations that must be understood BEFORE you decide to wear them • Do NOT fit everybody, don’t work with beards, and don’t work at all if you are using an inappropriate filter • ALWAYS consult with EHSS before you purchase ANY dust mask or cartridge respirator

  27. Respirators

  28. Where can I find more info? • Manufacturer websites • www.osha.gov • http://www.atsdr.cdc.gov/ • http://www.cdc.gov/niosh/homepage.html • http://www.iarc.fr/ • http://www.bestglove.com/ • http://www.ansell.com • VT EHSS : www.ehss.vt.edu

More Related