Respiratory Sensitization & Sickness from Welding/Burning Isocyanate Containing Paints ()
Abstract
The purpose of this paper is to make the
environmental and occupational health community aware of a serious health risk
associated with the common practice of burning industrial paint off of metal
surfaces during or prior to welding. On four occasions bystanders and
welder/burner personnel have experienced illness as a result of being exposed
to the combustion products of isocyanate paints that were being burned off
metal surfaces. In each case, the burning and the exposed people were outside
in an open environment where the health risk was thought to be minimal due to
the open environment with nominal wind movement through the work area. In one
case, the person (a burner) developed permanent sensitization to phthalic
anhydride as a result of the exposure. Phthalic anhydride was determined to be
decomposition product of burned isocyanate paint. In the other three cases
(which involved very short exposures), between two and six people became ill
but did not develop sensitization. Their symptoms included dizziness, nausea,
headache, and breathing difficulty the severity of which varied from very
uncomfortable to temporarily incapacitating. This paper discusses the
circumstances associated with each event, the approach used to determine that
phthalic anhydride was a decomposition product, and some practical things that
can be done to avoid having employees become victims of exposure.
Share and Cite:
Stobbe, T. and Westra, R. (2014) Respiratory Sensitization & Sickness from Welding/Burning Isocyanate Containing Paints.
Journal of Geoscience and Environment Protection,
2, 44-48. doi:
10.4236/gep.2014.24007.
Conflicts of Interest
The authors declare no conflicts of interest.
References
|
[1]
|
ACGIH (2013). Threshold Limit Values for Chemical Substances & Physical Agents.
|
|
[2]
|
Henriks-Eckerman, M.-L., Engstr?m, B., & ?N?s, E. (1990). Thermal Degradation Products of Steel Protective Paints. American Industrial Hygiene Association Journal, 51, 241-244. http://dx.doi.org/10.1080/15298669091369592�
|
|
[3]
|
Engstr?m, B., Henriks-Eckerman, M.-L., & ?n?s, E. (1990). Exposure to Paint Degradation Products When Welding, Flame Cutting, or Straightening Painted Steel. American Industrial Hygiene Association Journal, 51, 561-565.
http://dx.doi.org/10.1080/15298669091370103�
|
|
[4]
|
Isenstein, M., & Cook, L. (2002). Health Hazards from Burning a Chemical Agent Resistant Coating, a Polyurethane Paint. Poster Session Presented at the Annual American Industrial Hygiene Association (AIHCE) Conference No. 328.
|
|
[5]
|
Herpol, C. (1976). Biological Evaluation of the Toxicity of Products of Pyrolysis and Combustion of Materials Fire and Materials, 1, 29 to 35.
|
|
[6]
|
Levchik, S., & Weil, E. (2004). Review Thermal Decomposition, Combustion and Flame-Retardancy of Epoxy Resins—A Review of the Recent Literature. Polymer International, 53, 1901-1929. http://dx.doi.org/10.1002/pi.1473
|
|
[7]
|
OSHA 1910.1000 (2014) Permissible Exposure Limits for Air Contaminants, Subpart Z.
|