Approach to Chemical Health Risk Assessment for Maintenance Workers at Electronics Manufacturing Facilities

IF 2.9 3区医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Safety and Health at Work Pub Date : 2025-09-01 DOI:10.1016/j.shaw.2025.07.001

Kyong-Hui Lee , Sangjun Choi , Kyung Ehi Zoh , Dong-Hee Koh , Won Kim , Dong-Uk Park

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引用次数: 0

Abstract

Background

Maintenance workers in the electronics manufacturing industry are exposed to a diverse combination of gaseous and particulate substances, yet specific guidance for assessing their chemical health risks remains limited. The aims of this study are to develop a stepwise framework approach for qualitatively assessing hazard severity, exposure probability, and chemical health risks for maintenance workers at electronic manufacturing facilities, and to propose a method for categorizing these factors through occupational health risk assessment (OHRA).

Methods

We developed a stepwise framework for qualitatively assessing the health risks posed by chemicals to maintenance workers in electronics facilities. This framework employs a semiquantitative approach using ordinal scores to evaluate the severity of chemical hazards and the likelihood of exposure, particularly in situations where representative measurement data for multiple chemicals are unavailable.

Results

The framework assesses hazard severity qualitatively by considering the number of chemicals and the presence of carcinogenic, mutagenic, or reprotoxic substances or sensitizing hazards. A qualitative approach to estimating the likelihood of exposure is recommended, focusing on the effectiveness of engineering controls, the frequency and duration of maintenance works and tasks (MW), and the use of air jets. Two examples of a qualitative chemical OHRA for maintenance workers are given, one for a moderate hazard chemical integrating several exposure factors, and the second for MW on an ion implanter.

Conclusion

Further research is needed to validate this method and to develop additional practical guidance for the assessment of chemical health risks associated with MW.

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电子制造工厂维修工人化学品健康风险评估方法

电子制造业的维修工人接触到各种气体和颗粒物质的组合，但评估其化学健康风险的具体指导仍然有限。摘要本研究的目的在于建立一套循序渐进的框架方法，以定性评估电子制造工厂维修工人的危害程度、暴露概率和化学健康风险，并提出一种通过职业健康风险评估（OHRA）对这些因素进行分类的方法。方法建立了一个逐步定性评估化学物质对电子设备维修人员健康风险的框架。该框架采用半定量方法，使用序数分数来评估化学品危害的严重程度和暴露的可能性，特别是在无法获得多种化学品的代表性测量数据的情况下。结果该框架通过考虑化学物质的数量以及致癌、致突变或生殖毒性物质或致敏危害的存在，定性地评估了危害的严重程度。建议采用定性方法来估计暴露的可能性，重点关注工程控制的有效性、维修工作和任务（MW）的频率和持续时间以及喷气机的使用。本文给出了两个用于维修工人的定性化学OHRA的例子，一个是包含几个暴露因素的中等危害化学品，另一个是离子注入器上的MW。结论需要进一步的研究来验证该方法的有效性，并为MW相关的化学健康风险评估提供额外的实用指导。

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

Safety and Health at Work Social Sciences-Safety Research

CiteScore

6.40

自引率

5.70%

发文量

1080

审稿时长

38 days

期刊介绍： Safety and Health at Work (SH@W) is an international, peer-reviewed, interdisciplinary journal published quarterly in English beginning in 2010. The journal is aimed at providing grounds for the exchange of ideas and data developed through research experience in the broad field of occupational health and safety. Articles may deal with scientific research to improve workers'' health and safety by eliminating occupational accidents and diseases, pursuing a better working life, and creating a safe and comfortable working environment. The journal focuses primarily on original articles across the whole scope of occupational health and safety, but also welcomes up-to-date review papers and short communications and commentaries on urgent issues and case studies on unique epidemiological survey, methods of accident investigation, and analysis. High priority will be given to articles on occupational epidemiology, medicine, hygiene, toxicology, nursing and health services, work safety, ergonomics, work organization, engineering of safety (mechanical, electrical, chemical, and construction), safety management and policy, and studies related to economic evaluation and its social policy and organizational aspects. Its abbreviated title is Saf Health Work.