Occupational exposure to welding fume in Australian workplaces.

IF 1.6 4区医学 Q3 ENVIRONMENTAL SCIENCES

Industrial Health Pub Date : 2025-09-01 DOI:10.2486/indhealth.2025-0048

Tim R Driscoll, Scott Paine, Lin Fritschi, Ha Nguyen, Renee N Carey

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引用次数: 0

Abstract

This study aimed to provide information on exposure to welding fume in workplaces in Australia, and the use of control measures in these workplaces. Personal and static samples of welding fume particulates and gases were collected at 20 workplaces whilst welding was being undertaken. Study personnel also recorded observations of the workplace. Total welding fume particulate concentration in the breathing zone was above 1 mg/m³ (the newly established workplace exposure standard). Peak concentrations of ozone were above the peak limitation standard of 0.1 ppm for most workers when they had their head over the welding area. Very few workplaces had active ventilation in place and functioning at the time of the worksite visits, most workplaces relying on natural ventilation coming from the large workspaces, high ceilings and open doors. The use of respiratory protective equipment was sub-optimal; about a quarter of participants used no respiratory protection while welding. This study provides the first comprehensive information on concentration of welding fume particulate and gases in Australian workplaces and the use of relevant control measures. The findings suggest there is considerable scope for improvement in the control of exposure to welding fume.

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澳大利亚工作场所的焊接烟雾职业暴露。

本研究旨在提供有关在澳大利亚工作场所暴露于焊接烟雾的信息，以及在这些工作场所使用控制措施。在20个工作场所进行焊接时收集了焊接烟尘颗粒和气体的个人和静态样本。研究人员还记录了对工作场所的观察。呼吸区总焊烟颗粒浓度大于1mg /m3（新制定的工作场所暴露标准）。当大多数工人的头在焊接区域上方时，臭氧的峰值浓度超过了0.1 ppm的峰值限制标准。很少有工作场所在工作现场访问时有主动通风，大多数工作场所依靠来自大工作空间、高天花板和敞开的门的自然通风。呼吸防护设备的使用不理想；大约四分之一的参与者在焊接时没有使用呼吸保护装置。这项研究首次提供了有关澳大利亚工作场所焊接烟尘颗粒和气体浓度以及相关控制措施的综合信息。研究结果表明，在控制焊烟暴露方面还有相当大的改进余地。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Industrial Health 医学-毒理学

CiteScore

3.40

自引率

5.00%

发文量

审稿时长

6-12 weeks

期刊介绍： INDUSTRIAL HEALTH covers all aspects of occupational medicine, ergonomics, industrial hygiene, engineering, safety and policy sciences. The journal helps promote solutions for the control and improvement of working conditions, and for the application of valuable research findings to the actual working environment.