Combined single-drop and rotating drum dustiness test of fine to nanosize powders using a small drum.
暂无分享,去创建一个
[1] D. Leith,et al. Dust Generation from Handling Powders in Industry , 1995 .
[2] M. Bohgard,et al. 27.P.07 Source characteristics of emitted aerosol in the size range 0,02 to 10 μm at pigment handling in dye manufacturing , 1994 .
[3] Patrick N. Breysse,et al. In vivo measurements of inhalability of ultralarge aerosol particles in calm air by humans , 2006 .
[4] Martin Harper,et al. The Need for an International Sampling Convention for Inhalable Dust in Calm Air , 2006, Journal of occupational and environmental hygiene.
[5] T A J Kuhlbusch,et al. Number Size Distribution, Mass Concentration, and Particle Composition of PM1, PM2.5, and PM10 in Bag Filling Areas of Carbon Black Production , 2004, Journal of occupational and environmental hygiene.
[6] Kenneth L. Cashdollar,et al. Overview of dust explosibility characteristics , 2000 .
[7] Alan W. Weimer,et al. Aggregation behavior of nanoparticles in fluidized beds , 2005 .
[8] Rolf K. Eckhoff,et al. Current status and expected future trends in dust explosion research , 2005 .
[9] H. Rietveld. Line profiles of neutron powder-diffraction peaks for structure refinement , 1967 .
[10] T. Gill,et al. Technologies for laboratory generation of dust from geological materials. , 2006, Journal of hazardous materials.
[11] Göran Lidén. Dustiness testing of materials handled at workplaces. , 2006, The Annals of occupational hygiene.
[12] J. Pagels,et al. Evaluation of Aerodynamic Particle Sizer and Electrical Low-Pressure Impactor for Unimodal and Bimodal Mass-Weighted Size Distributions , 2005 .
[13] H. Rietveld. A profile refinement method for nuclear and magnetic structures , 1969 .
[14] T. Schneider,et al. Characterization of microbial particle release from biomass and building material surfaces for inhalation exposure risk assessment. , 2006, The Annals of occupational hygiene.
[15] James H. Vincent,et al. Applications of closely graded powders of fused alumina as test dusts for aerosol studies , 1985 .
[16] R. Howie,et al. An Introduction to the Rock-Forming Minerals , 1966 .
[17] J. Barralet,et al. Factors influencing calcium phosphate cement shelf-life. , 2005, Biomaterials.
[18] Chetan Pratap Pujara. Determination of factors that affect the generation of airborne particles from bulk pharmaceutical powders , 1997 .
[19] Andrew D. Maynard. Experimental Determination of Ultrafine TiO 2 Deagglomeration in a Surrogate Pulmonary Surfactant: Preliminary Results , 2002 .
[20] Niels O. Breum,et al. The rotating drum dustiness tester: Variability in dustiness in relation to sample mass, testing time, and surface adhesion , 1999 .
[21] B. T. Chen,et al. A Study of Density Effect and Droplet Deformation in the TSI Aerodynamic Particle Sizer , 1990 .
[22] David Leith,et al. Method to evaluate the dustiness of pharmaceutical powders. , 2006, The Annals of occupational hygiene.
[23] Derk H Brouwer,et al. Size selective dustiness and exposure; simulated workplace comparisons. , 2006, The Annals of occupational hygiene.
[24] Kevin Ashley,et al. Analytical Performance Criteria , 2007 .
[25] Thomas Schneider,et al. DOCUMENTATION OF A DUSTINESS DRUM TEST , 1996 .
[26] J. Volckens,et al. Counting and particle transmission efficiency of the aerodynamic particle sizer , 2005 .
[27] Hermann J. Feise,et al. Formation and Growth of Crystal Bridges in Bulk Solids , 2006 .
[28] T Schneider,et al. Cellulosic building insulation versus mineral wool, fiberglass or perlite: installer's exposure by inhalation of fibers, dust, endotoxin and fire-retardant additives. , 2003, The Annals of occupational hygiene.
[29] J. Gubicza,et al. Atmospheric ageing of nanosized silicon nitride powders , 2001 .
[30] P. Baron,et al. Exposure to Carbon Nanotube Material: Aerosol Release During the Handling of Unrefined Single-Walled Carbon Nanotube Material , 2004, Journal of toxicology and environmental health. Part A.