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PUBMED FOR HANDHELDS

Journal Abstract Search


155 related items for PubMed ID: 27598180

  • 21. Particle size distributions of lead measured in battery manufacturing and secondary smelter facilities and implications in setting workplace lead exposure limits.
    Petito Boyce C, Sax SN, Cohen JM.
    J Occup Environ Hyg; 2017 Aug; 14(8):594-608. PubMed ID: 28806144
    [Abstract] [Full Text] [Related]

  • 22. Number size distribution of fine and ultrafine fume particles from various welding processes.
    Brand P, Lenz K, Reisgen U, Kraus T.
    Ann Occup Hyg; 2013 Apr; 57(3):305-13. PubMed ID: 23028013
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  • 25. Characterization of exposures to airborne nanoscale particles during friction stir welding of aluminum.
    Pfefferkorn FE, Bello D, Haddad G, Park JY, Powell M, McCarthy J, Bunker KL, Fehrenbacher A, Jeon Y, Virji MA, Gruetzmacher G, Hoover MD.
    Ann Occup Hyg; 2010 Jul; 54(5):486-503. PubMed ID: 20453001
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  • 26. Comparison of the DiSCmini aerosol monitor to a handheld condensation particle counter and a scanning mobility particle sizer for submicrometer sodium chloride and metal aerosols.
    Mills JB, Park JH, Peters TM.
    J Occup Environ Hyg; 2013 Jul; 10(5):250-8. PubMed ID: 23473056
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  • 28. Assessment of personal direct-reading dust monitors for the measurement of airborne inhalable dust.
    Thorpe A.
    Ann Occup Hyg; 2007 Jan; 51(1):97-112. PubMed ID: 16799158
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  • 29. An evaluation of sharp cut cyclones for sampling diesel particulate matter aerosol in the presence of respirable dust.
    Cauda E, Sheehan M, Gussman R, Kenny L, Volkwein J.
    Ann Occup Hyg; 2014 Oct; 58(8):995-1005. PubMed ID: 25060240
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  • 30. Air sampling methodology for asphalt fume in asphalt production and asphalt roofing manufacturing facilities: total particulate sampler versus inhalable particulate sampler.
    Calzavara TS, Carter CM, Axten C.
    Appl Occup Environ Hyg; 2003 May; 18(5):358-67. PubMed ID: 12746079
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  • 32. Physical and chemical characterization of airborne particles from welding operations in automotive plants.
    Dasch J, D'Arcy J.
    J Occup Environ Hyg; 2008 Jul; 5(7):444-54. PubMed ID: 18464098
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  • 33. Occupational Exposure to Cobalt and Tungsten in the Swedish Hard Metal Industry: Air Concentrations of Particle Mass, Number, and Surface Area.
    Klasson M, Bryngelsson IL, Pettersson C, Husby B, Arvidsson H, Westberg H.
    Ann Occup Hyg; 2016 Jul; 60(6):684-99. PubMed ID: 27143598
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  • 34. Exposure and emission measurements during production, purification, and functionalization of arc-discharge-produced multi-walled carbon nanotubes.
    Hedmer M, Isaxon C, Nilsson PT, Ludvigsson L, Messing ME, Genberg J, Skaug V, Bohgard M, Tinnerberg H, Pagels JH.
    Ann Occup Hyg; 2014 Apr; 58(3):355-79. PubMed ID: 24389082
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  • 35. Characterization of Airborne Nanoparticle Loss in Sampling Tubing.
    Tsai CS.
    J Occup Environ Hyg; 2015 Apr; 12(8):D161-7. PubMed ID: 25746064
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  • 37. Selective detection and characterization of nanoparticles from motor vehicles.
    Johnston MV, Klems JP, Zordan CA, Pennington MR, Smith JN, HEI Health Review Committee.
    Res Rep Health Eff Inst; 2013 Feb; (173):3-45. PubMed ID: 23614271
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  • 39. Ultrafine particle characteristics in seven industrial plants.
    Elihn K, Berg P.
    Ann Occup Hyg; 2009 Jul; 53(5):475-84. PubMed ID: 19447849
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  • 40. Exposure characterization and risk assessment of ultrafine particles from the blast furnace process in a steelmaking plant.
    Gao X, Zhou X, Zou H, Wang Q, Zhou Z, Chen R, Yuan W, Luan Y, Quan C, Zhang M.
    J Occup Health; 2021 Jan; 63(1):e12257. PubMed ID: 34375492
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