纳米材料在混合粉尘环境中的定量暴露评价方法:在轮胎制造设施中的应用。

Annals of Occupational Hygiene Pub Date : 2015-11-01 Epub Date: 2015-07-23 DOI:10.1093/annhyg/mev052
Marisa L Kreider, William D Cyrs, Melissa A Tosiano, Julie M Panko
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引用次数: 6

摘要

目前关于纳米材料特异性暴露评估的建议需要调整,以便适用于复杂的生产环境,在这些环境中,各种颗粒类型可能导致潜在的暴露。这项工作的目的是评估一种方法,该方法可以通过化学成分和尺寸来评估纳米结构材料在混合粉尘环境中的暴露,并以轮胎制造中的炭黑(CB)和无定形二氧化硅(AS)为例。该方法结合了空气采样和低压级联冲击器,并按尺寸分析元素组成,以定量评估工作场所的潜在暴露。该方法首先在一家轮胎制造工厂进行了试点测试;在混合过程中,用Dekati低压冲击器(DLPI)收集空气样本,其中CB或AS用作主要填料。通过扫描透射电子显微镜(STEM)和能量色散光谱(EDS)对空气样品进行分析,以确定哪些颗粒是CB, AS或“其他”。从这个初步研究中,确定了~95%的纳米级颗粒被鉴定为炭黑或砷。随后,在两个轮胎制造工厂使用Dekati低压冲击器(ELPI)收集样本,并使用相同的方法进行分析,以量化这些材料的暴露程度。该分析证实,在两个设施的混合区,炭黑和砷是主要的纳米级颗粒类型。空气中炭黑和砷的浓度分别为~8900 ~ 77600和400 ~ 22200粒cm(-3)。这种方法提供了在混合粉尘环境中对工人暴露于特定材料的纳米颗粒进行定量估计的潜力。随着纳米材料职业暴露限值的制定,这种方法将使职业健康和安全从业人员能够估计工人对特定材料的暴露,即使在存在许多颗粒类型的情况下也是如此。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Quantitative Exposure Assessment Method for Nanomaterials in Mixed Dust Environments: Application in Tire Manufacturing Facilities.

Current recommendations for nanomaterial-specific exposure assessment require adaptation in order to be applied to complicated manufacturing settings, where a variety of particle types may contribute to the potential exposure. The purpose of this work was to evaluate a method that would allow for exposure assessment of nanostructured materials by chemical composition and size in a mixed dust setting, using carbon black (CB) and amorphous silica (AS) from tire manufacturing as an example. This method combined air sampling with a low pressure cascade impactor with analysis of elemental composition by size to quantitatively assess potential exposures in the workplace. This method was first pilot-tested in one tire manufacturing facility; air samples were collected with a Dekati Low Pressure Impactor (DLPI) during mixing where either CB or AS were used as the primary filler. Air samples were analyzed via scanning transmission electron microscopy (STEM) coupled with energy dispersive spectroscopy (EDS) to identify what fraction of particles were CB, AS, or 'other'. From this pilot study, it was determined that ~95% of all nanoscale particles were identified as CB or AS. Subsequent samples were collected with the Dekati Electrical Low Pressure Impactor (ELPI) at two tire manufacturing facilities and analyzed using the same methodology to quantify exposure to these materials. This analysis confirmed that CB and AS were the predominant nanoscale particle types in the mixing area at both facilities. Air concentrations of CB and AS ranged from ~8900 to 77600 and 400 to 22200 particles cm(-3), respectively. This method offers the potential to provide quantitative estimates of worker exposure to nanoparticles of specific materials in a mixed dust environment. With pending development of occupational exposure limits for nanomaterials, this methodology will allow occupational health and safety practitioners to estimate worker exposures to specific materials, even in scenarios where many particle types are present.

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