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Related Topics: Hoses. Preview Document Add to Cart. Login to see discount. Special Offer: J-Paks offers a customized subscription plan that lets you pay for just the documents that you need, when you need them. Get Involved Want to participate in updating this standard? Join Committee Learn More. E standard spectral tristimulus values are used to make the color measurements.

APPENDIX A

These measured tristimulus values are used to calculate the chromaticity coordinates of the color of emitted light from the device. The instrument used for this type of measurement is a colorimeter. These instruments are generally used for production control of color and are satisfactory if calibrated against color filters of known chromaticity coordinates.

Visual tristimulus colorimeters can also be used for color evaluation. This method should be used as a referee approach when the commonly used methods produce questionable results. An R symbol to the left of the document title indicates a complete revision of the report. Application— This SAE Standard defines and provides a means for the control of colors employed in motor vehicle external lighting equipment, including lamps and reflex reflectors. Sampling Methods in High Sulfide Mines. Haney, R. Mining Industry. Carlson, S. Kogut, J. Marple, V. BuMines Contract Report.

Aerosol Sampling and Measurement References

McCartney, T. Baumgaurd and W. BuMines IC. CIM Bulletin. Ramchandran, G. Rubow, K. Littleton, CO: 5.

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Spears, M. Evaluation of Technology to Reduce Diesel Particulate. University of Minnesota, M. Stachulak, J. Waytulonis, R. Diesel Exhaust Control- Chapter In Proceedings: Diesels in Underground Mines. Cantrell, J.

Ambs, et al. Mine Inspection Data Analysis System.

Diesel Aerosol Sampler Comparison. Contract Final Report prepared for Inco, Ltd. Project Agreement No. A96G36E, 59 pp. Environment Management for the 90's, Littleton, CO. Ellis, R. Haney, et al. Eng AIME. Weeks, J. Welker, R. Mine Particulate Size Characterization. Bureau of Mines Open File Report. Prepared by IIT Research. Adachi, M. Anastasio, C. Atmospheric Nanoparticles. In: Nanoparticles and the Environment. Banfield and A. Beck-Speier, I. Brown, D. Bukowiecki, N. In press. Chen, D. Yeh and S. Corcione, F. Farnlund, J. Homan and P. Swedish National Road Administration Publication.

Fissan, H. Gehr, P.


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Hart, K. Water, Air, and Soil Pollution. Hummes, D. Jaques and S. September 6, Formation of Nanoparticles During Exhaust Dilution. Nanoparticle Emissions from Engines. Watts and J. Luders, H. Mayer, A. Maynard, A. Oberdorster, G. Current Understanding of the Toxicity of Ultrafine Particles. Castine, Maine. July , Toxicology of Ultrafine Particles: in vivo Studies. Pulmonary Effects of Inhaled Ultrafine Particles. Int Arch Occup Environ Health. Toxicological Aspects of Exposure to Ultrafine Particles.

Pakkanen, T. Peters, A. Renwick, L. Riesenfeld, E. Ultrafine Particle Concentrations in a Hospital. Ristimaki, J.

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Department of Electrical Engineering. Tampere, Finland, Tampere University of Technology: 62pp. Ruuskanen, J. Concentrations of Ultrafine, Fine and PM2. Sources and Concentration of Nanoparticles in the Urban Atmosphere. Siegmann, K. Scherrer and H. Tobias, H. Vincent, J.