工作场所暴露于人工弧焊碳钢产生的亚微米颗粒质量和数量浓度。

D. Stephenson, G. Seshadri, J. Veranth
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引用次数: 65

摘要

在典型的工业维修和金属加工工作环境中,对碳钢手工保护金属电弧焊的颗粒排放进行了采样。使用扫描迁移率粒度仪和光学粒子计数器在14 nm至10微米的尺寸范围内测量粒子数,结果表明,焊接产生的粒子模式近似对数正态分布,计数中位数为120 nm,几何标准偏差为2.07。本研究得出,在距离焊接点8.5 m的建筑空气中,焊接颗粒数浓度约为2 × 10(5)/cm(3)。工作场所暴露样本低于目前美国政府工业卫生学家会议的8小时质量浓度阈值5 mg/m(3)。在焊接过程中,亚微米颗粒占级联冲击器收集的总气溶胶质量的80%。较大颗粒的浓度与室内背景无法区分。显微观察表明,焊接辐射主要由<0.1微米初生球体形成的团簇组成。这些关于工业建筑内由自然稀释产生的气溶胶转化产生的颗粒的数据可以与实验室规模的焊接颗粒研究进行比较。本研究中观察到的颗粒数量特征具有重要意义,因为毒理学假设表明,在评估细颗粒对健康的影响时,数量或表面积可能是比质量更好的度量标准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Workplace exposure to submicron particle mass and number concentrations from manual arc welding of carbon steel.
Particle emissions from manual shielded metal arc welding of carbon steel were sampled in a typical industrial maintenance and metal fabrication workplace environment. Particle number measurements over the size range from 14 nm to 10 microm using a scanning mobility particle sizer and an optical particle counter showed that welding produced an approximately lognormal particle mode with a 120 nm count median and a geometric standard deviation of 2.07. This study produced welding particle number concentrations on the order of 2 x 10(5)/cm(3) in the building air 8.5 m away from the welding. Workplace exposure samples were below the current 8-hour American Conference of Governmental Industrial Hygienists mass concentration threshold limit value of 5 mg/m(3). Submicron particles comprised 80% of the total aerosol mass collected by a cascade impactor during welding. The concentration of larger particles was indistinguishable from indoor background. Microscopy showed that the welding emissions are dominated by clusters formed from <0.1 microm primary spheres. These data on the particles resulting from aerosol transformation by natural dilution inside an industrial building can be compared with laboratory-scale studies of welding particulate. The particle number characteristics observed in this study are significant because toxicological hypotheses suggest that number or surface area may be a better metric than mass when evaluating the health effects of fine particles.
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