Determinants of exposure to metalworking fluid aerosol in small machine shops.

The purpose of this study was to evaluate personal exposure to metalworking fluid (MWF) aerosols in very small machine shops (1-8 machinists per shop) and to investigate workplace factors associated with exposures. A total of 20 willing machine shops in Vancouver, Canada (from 46 eligible shops, 43%) and 88 machinists participated (participation rate for machinists 92%). Most machinists wore two personal sampling trains (an open-faced 37 mm cassette and a PM10 impactor) on each of two full work shifts. Observational data were collected regarding potential determinants of exposure at 15 min intervals throughout each shift. A total of 322 personal samples were taken over 54 days. Mean aerosol exposure was 0.32 mg/m3 (range 0.06-2.19) for the 37 mm cassette samples and 0.27 mg/m3 (range 0.026-3.67) for PM10. Exposures from the two sampler types were highly correlated (R = 0.86). The mean shop-specific ratio comparing exposure from the 37 mm cassette with that from the PM10 sampler was 1.43 and varied significantly across shops, ranging from 0.97 to 2.19. Machine, task and shop characteristics associated with significantly increased aerosol exposure included the proportion of time spent grinding, operating an enclosed computer controlled machine, the presence of welding in the shop for both sampler types and the number of machines using MWF for PM10 samples only. Factors associated with reduced aerosol exposure included machining aluminum, milling, the height (and shape) of the shop roof (for both sample types) and the presence of mechanical shop ventilation (for the 37 mm cassette samples).

[1]  Peter S. Thorne,et al.  Environmental Assessment of Aerosols, Bioaerosols, and Airborne Endotoxins in a Machining Plant , 1996 .

[2]  D. Mage Exposure variability in the workplace: its implications for the assessment of compliance. , 1995, American Industrial Hygiene Association journal.

[3]  D. Kriebel,et al.  Exposure assessment for a field investigation of the acute respiratory effects of metalworking fluids. I. Summary of findings. , 1996, American Industrial Hygiene Association journal.

[4]  E A Eisen,et al.  Size-selective pulmonary dose indices for metal-working fluid aerosols in machining and grinding operations in the automobile manufacturing industry. , 1994, American Industrial Hygiene Association journal.

[5]  E A Eisen,et al.  Acute pulmonary responses among automobile workers exposed to aerosols of machining fluids. , 1989, American journal of industrial medicine.

[6]  D Hands,et al.  Comparison of metalworking fluid mist exposures from machining with different levels of machine enclosure. , 1996, American Industrial Hygiene Association journal.

[7]  James B. D'Arcy,et al.  Size Characteristics of Machining Fluid Aerosols in an Industrial Metalworking Environment , 1990 .

[8]  P.-J. Tsai,et al.  Worker Exposure to Nickel-Containing Aerosol in Two Electroplating Shops: Comparison Between Inhalable and Total Aerosol , 1996 .

[9]  S R Woskie,et al.  Estimation of historical exposures to machining fluids in the automotive industry. , 1994, American journal of industrial medicine.

[10]  Igor Burstyn,et al.  Determinants of Wheat Antigen and Fungal α-Amylase Exposure in Bakeries , 1998 .

[11]  D M O'Brien,et al.  Metalworking fluid exposures in small machine shops: an overview. , 2001, AIHAJ : a journal for the science of occupational and environmental health and safety.

[12]  A Franzblau,et al.  Acute respiratory effects on workers exposed to metalworking fluid aerosols in an automotive transmission plant. , 1997, American journal of industrial medicine.

[13]  K. Teschke,et al.  Determinants of exposure to inhalable particulate, wood dust, resin acids, and monoterpenes in a lumber mill environment. , 1999, The Annals of occupational hygiene.

[14]  E A Eisen,et al.  Respiratory health of automobile workers exposed to metal-working fluid aerosols: respiratory symptoms. , 1997, American journal of industrial medicine.

[15]  S Selvin,et al.  The effect of autocorrelation on the estimation of workers' daily exposures. , 1989, American Industrial Hygiene Association journal.

[16]  H. Kromhout,et al.  Determinants of dust and endotoxin exposure of pig farmers: development of a control strategy using empirical modelling. , 1995, The Annals of occupational hygiene.