Ashley, Kevin
Kevin E. Ashley researcher at NIOSH
VIAF ID: 63361278 (Personal)
Permalink: http://viaf.org/viaf/63361278
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Works
Title | Sources |
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The art of prompts for artificial intelligence. : make art with DALL-E, Midjourney and Livebook AI | |
Beryllium, c2006: | |
Evaluation of a standardized micro-vacuum sampling method for collection of surface dust | |
An evaluation of worker lead exposures and cleaning effectiveness during removal of deteriorated lead-based paint | |
The feasibility of studying the health implications of surface beryllium contamination: a review of eight industries | |
Field evaluation of a portable blood lead analyzer in workers living at a high altitude: a follow-up investigation | |
Field portable measurement of airborne beryllium, chromium, lead and other metals: instruments, methods and future directions. Part II: chromium, lead and other metals | |
Field-portable methods for monitoring occupational exposures to metals | |
Field-portable spectroscopy | |
Fourier transform infrared spectrometry/attenuated total reflectance study of the reaction of pentanal and propanal with 2-(hydroxymethyl)piperidine | |
General considerations for sampling airborne contaminants | |
Gravimetric analysis of particulate matter using air samplers housing internal filtration capsules | |
A guide to web preservation : practical advice for web and records managers based on best practices from the JISC-funded PoWR project | |
Handwipe method for removing lead from skin | |
Health hazard evaluation report: HETA-92-095-2317, Ohio University, Athens, Ohio | |
Health hazard evaluation report: HETA-99-0305-2878, Lead Safe Services, Inc., Neenah, Wisconsin | |
Industrial hygiene chemistry: keeping pace with rapid change in the workplace | |
Interlaboratory evaluation of cellulosic acid-soluble internal air sampling capsules for multi-element analysis | |
Interlaboratory evaluation of trace element determination in workplace air filter samples by inductively coupled plasma mass spectrometry | |
International standard procedure for the extraction of metal compounds having soluble threshold limit values | |
Level the playing field | |
Manganese fractionation using a sequential extraction method to evaluate welders' shielded metal arc welding exposures during construction projects in oil refineries | |
Manganese speciation of laboratory-generated welding fumes | |
Measurement of Crystalline Silica Aerosol Using Quantum Cascade Laser-Based Infrared Spectroscopy | |
NIOSH researchers take issue with comments by XRF company spokesman | |
NMAM 5th Edition | |
On-site measurement of blood-lead concentrations using field-portable electroanalysis | |
Performance criteria and characteristics of field screening test methods | |
Portable monitors for airborne lead at mining sites | |
PoWR handbook 2008 | |
Preparation, certification and interlaboratory analysis of workplace air filters spiked with high-fired beryllium oxide | |
Preservation of web resources handbook | |
Proceedings of the third international symposium on beryllium particulates and their detection November 17-19, 2008, Albuquerque, New Mexico | |
Protecting workers exposed to lead-based paint hazard, 1997: | |
Purpose, scope and use of the NIOSH Manual of Analytical Methods | |
Quantitative risk assessment as the basis for a proposed NIOSH recommended exposure limit for hexavalent chromium compounds | |
Reconciling traditional accuracy assessment with the ISO Guide to the Expression of Uncertainty in Measurement (ISO/GUM) | |
Reflexions sur le prelevement et l'analyse du chrom hexavalent dans l'air des lieux de travail | |
Sample dissolution reagents for beryllium -- applications in occupational and environmental hygiene | |
Sampling and analysis considerations for the determination of hexavalent chromium in workplace air | |
Sampling and analysis issues relating to the ACGIH notice of intended change for the beryllium threshold limit value | |
Sampling and analysis of soluble metal compounds | |
Solution infrared spectroelectrochemistry: A review. | |
Standard methods for beryllium sampling and analysis: availabilities and needs | |
Surface and dermal sampling | |
Trace-level beryllium analysis in the laboratory and in the field: state of the art, challenges and opportunities | |
Treating waste with waste: a preliminary evaluation of welding fume as a source of iron nanoparticles for groundwater after remediation | |
Ultra-trace determination of beryllium in occupational hygiene samples by ammonium bifluoride extraction and fluorescence detection using hydroxybenzoquinoline sulfonate | |
Ultrasonic extraction and portable anodic stripping voltammetric measuremnt of lead in paint, dust wipes, soil, and air: an interlaboratory evaluation | |
Ultrasonic extraction as a sample preparation technique for elemental analysis by atomic spectrometry | |
Ultrasonic extraction of heavy metals from environmental and industrial hygiene samples for their subsequent determination | |
The use of immunochemical and biosensor methods for occupational and environmental monitoring. Part II: immunoassay data analysis and immunobiosensors | |
Vacuum sampling techniques for industrial hygienists, with emphasis on beryllium dust sampling | |
Validation of a standardized portable fluorescence method for determining trace beryllium in workplace air and wipe samples | |
Wipes and methods for removal of metal contamination from surfaces | |
Workplace air quality: international consensus standards | |
എഎസ്ടിഎം ഡി7202-05 |