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Journal Abstract Search

404 related items for PubMed ID: 2992262

  • 1. A critique of MSHA procedures for determination of permissible respirable coal mine dust containing free silica.
    Corn M, Breysse P, Hall T, Chen G, Risby T, Swift DL.
    Am Ind Hyg Assoc J; 1985 Jan; 46(1):4-8. PubMed ID: 2992262
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  • 5. Equivalency of a personal dust monitor to the current United States coal mine respirable dust sampler.
    Page SJ, Volkwein JC, Vinson RP, Joy GJ, Mischler SE, Tuchman DP, McWilliams LJ.
    J Environ Monit; 2008 Jan; 10(1):96-101. PubMed ID: 18175022
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  • 6. Estimation of respirable dust exposure among coal miners in South Africa.
    Naidoo R, Seixas N, Robins T.
    J Occup Environ Hyg; 2006 Jun; 3(6):293-300. PubMed ID: 16621766
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  • 7. Assessment of the respirable dust levels in the nation's underground and surface coal mining operations.
    Parobeck PS, Jankowski RA.
    Am Ind Hyg Assoc J; 1979 Oct; 40(10):910-5. PubMed ID: 525618
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  • 8. Airborne crystalline silica concentrations at coal-fired power plants associated with coal fly ash.
    Hicks J, Yager J.
    J Occup Environ Hyg; 2006 Aug; 3(8):448-55. PubMed ID: 16862716
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  • 9. Evaluation of the approach to respirable quartz exposure control in U.S. coal mines.
    Joy GJ.
    J Occup Environ Hyg; 2012 Aug; 9(2):65-8. PubMed ID: 22181563
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  • 10. [Exposure to silica dust in coal-mining. Analysis based on measurements made by industrial hygiene laboratories in Poland, 2001-2005].
    Mikołajczyk U, Bujak-Pietrek S, Szadkowska-Stańczyk I.
    Med Pr; 2010 Aug; 61(3):287-97. PubMed ID: 20677428
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  • 11. Estimating historical respirable crystalline silica exposures for Chinese pottery workers and iron/copper, tin, and tungsten miners.
    Zhuang Z, Hearl FJ, Odencrantz J, Chen W, Chen BT, Chen JQ, McCawley MA, Gao P, Soderholm SC.
    Ann Occup Hyg; 2001 Nov; 45(8):631-42. PubMed ID: 11718659
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  • 12. Comparison of mass concentrations determined with personal respirable coal mine dust samplers operating at 1.2 liters per minute and the Casella 113A gravimetric sampler (MRE).
    Treaftis HN, Gero AJ, Kacsmar PM, Tomb TF.
    Am Ind Hyg Assoc J; 1984 Dec; 45(12):826-32. PubMed ID: 6517028
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  • 13. Comparison of coal mine dust size distributions and calibration standards for crystalline silica analysis.
    Page SJ.
    AIHA J (Fairfax, Va); 2003 Dec; 64(1):30-9. PubMed ID: 12570393
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  • 14. Industrial hygiene sampling and applications to ambient silica monitoring.
    Hearl FJ.
    J Expo Anal Environ Epidemiol; 1997 Dec; 7(3):279-89. PubMed ID: 9246591
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  • 15. Quantitating the efficiency of the coal mine personal respirable dust sampler for sampling oxide fumes.
    Tomb TF, Beckert AJ, Treaftis HN.
    Am Ind Hyg Assoc J; 1976 Aug; 37(8):459-63. PubMed ID: 970321
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  • 16. Replacement of filters for respirable quartz measurement in coal mine dust by infrared spectroscopy.
    Farcas D, Lee T, Chisholm WP, Soo JC, Harper M.
    J Occup Environ Hyg; 2016 Aug; 13(2):D16-22. PubMed ID: 26375614
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  • 17. Occupational exposure to dust containing free silica in a ceramics factory.
    Kolton R, Richter ED, Israeli R.
    Isr J Med Sci; 1981 Apr; 17(4):277-82. PubMed ID: 6263825
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  • 18. An evaluation of the GCA respirable dust monitor 101-1.
    Marple VA, Rubow KL.
    Am Ind Hyg Assoc J; 1978 Jan; 39(1):17-25. PubMed ID: 204180
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  • 19. [Backgrounds for assessing occupational exposure to crystalline silica dust in Poland and worldwide].
    Maciejewska A.
    Med Pr; 2007 Jan; 58(4):327-44. PubMed ID: 18041202
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  • 20. Exposure assessment to dust and free silica for workers of Sangan iron ore mine in Khaf, Iran.
    Naghizadeh A, Mahvi AH, Jabbari H, Derakhshani E, Amini H.
    Bull Environ Contam Toxicol; 2011 Nov; 87(5):531-8. PubMed ID: 21805121
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