Nine peer-reviewed papers provide the latest research on beryllium sample collection, preparation, and measurement. STP 1473 also identifies new areas of standards development concerning beryllium sampling and analytical procedures.
Beryllium DiseaseExposure Monitoring and Standardization Issues: an overview of beryllium disease and efforts to reduce worker exposures through improved monitoring methods and the development of standard methodologies. Papers discuss the industrial uses of beryllium, the history of beryllium disease, occupational exposure monitoring, and standardization of sampling and analytical methods.
Beryllium Exposure Measurement and Reference MaterialsNational and International Perspectives: global efforts and progress in beryllium occupational monitoring, as well as the development and characterization of beryllium reference materials. Applications of sampling and analytical methods to industrial hygiene chemistry and practice are highlighted, and needs for reference materials containing beryllium oxide are identified.
On-Site Monitoring for BerylliumSampling and Analytical Aspects: new portable analytical methods for determining trace beryllium in samples from air and surfaces, time qualitative and semi-quantitative methods, and near real-time quantitative techniques for ultra-trace Be analysis.
Opportunities for Standardization of Beryllium Sampling and Analysis
Ashley K., Brisson M., Ekechukwu A., Jahn S.
Standard Methods for Beryllium Sampling and Analysis: Availabilities and Needs
Ashley K., Brisson M., Jahn S.
Opportunities for Development of Reference Materials for Beryllium
Day G., Hoover M., Stefaniak A., Watters R.
Characteristics of Beryllium Oxide and Beryllium Metal Powders for Use as Reference Materials
Brink C., Day G., Ekechukwu A., Hoover M., Scripsick R., Stefaniak A., Whitney G.
Determination of Beryllium Compounds by NIOSH 7303
Amer S., Loughrin J., Reichmann L., Smieja D.
Sampling and Analysis of Beryllium at JET: Policy Cost and Impact
Campling D., Patel B.
Use of Electrically Enhanced Aerosol Plasma Spectroscopy for Real-Time Characterization of Beryllium Particles
Cheng M., Hinton R., Smithwick R.
Development of a New Fluorescence Method for the Detection of Beryllium on Surfaces
Burrell A., Ehler D., McCleskey T., Minogue E., Taylor T.
Interlaboratory Evaluation of a Portable Fluorescence Method for the Measurement of Trace Beryllium in the Workplace
Agrawal A., Ashley K., Brisson M., Cronin J., Goodyear G., McCleskey T.
Paper ID: STP1473-EB