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Silica exposure in hand grinding steel castings.

Abstract
Exposure to silica dust was studied in the grinding of castings in a steel foundry that used conventional personal sampling methods and new real-time sampling techniques developed for the identification of high-exposure tasks and tools. Approximately one-third of the personal samples exceeded the National Institute for Occupational Safety and Health recommended exposure limit for crystalline silica, a fraction similar to that identified in other studies of casting cleaning. Of five tools used to clean the castings, the tools with the largest wheels, a 6-in. grinder and a 4-in. cutoff wheel, were shown to be the major sources of dust exposure. Existing dust control consisted of the use of downdraft grinding benches. The size of the casting precluded working at a distance close enough to the grates of the downdraft benches for efficient capture of the grinding dust. In addition, measurements of air recirculated from the downdraft benches indicated that less than one-half of the respirable particles were removed from the contaminated airstream. Previous studies have shown that silica exposures in the cleaning of castings can be reduced or eliminated through the use of mold coatings, which minimize sand burn-in on the casting surface; by application of high-velocity, low-volume exhaust hoods; and by the use of a nonsilica molding aggregate such as olivine. This study concluded that all these methods would be appropriate control options.
AuthorsD O'Brien, P A Froehlich, M G Gressel, R M Hall, N J Clark, P Bost, T Fischbach
JournalAmerican Industrial Hygiene Association journal (Am Ind Hyg Assoc J) Vol. 53 Issue 1 Pg. 42-8 (Jan 1992) ISSN: 0002-8894 [Print] United States
PMID1317091 (Publication Type: Journal Article)
Chemical References
  • Air Pollutants, Occupational
  • Dust
  • Silicon Dioxide
Topics
  • Air Pollutants, Occupational (analysis)
  • Air Pollution (prevention & control)
  • Dust (analysis)
  • Environmental Monitoring
  • Evaluation Studies as Topic
  • Humans
  • Maximum Allowable Concentration
  • Metallurgy
  • Silicon Dioxide (analysis)
  • Ventilation (methods, standards)

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