碳纳米管增强聚丙烯复合材料制造和回收过程中纳米颗粒和纤维的潜在暴露特性。

Annals of Occupational Hygiene Pub Date : 2016-01-01 Epub Date: 2015-10-07 DOI:10.1093/annhyg/mev073
Pongsit Boonruksa, Dhimiter Bello, Jinde Zhang, Jacqueline A Isaacs, Joey L Mead, Susan R Woskie
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引用次数: 38

摘要

碳纳米管(CNT)聚合物复合材料以其优异的性能被广泛应用于多个工业领域。然而,这种扩张伴随着对碳纳米管和相关纳米颗粒在碳纳米管复合产品的制造、回收、使用和处置过程中潜在释放的现实担忧。这些数据仍然有限,特别是在碳纳米管产品的后处理、纳米废物的回收和处理以及寿命结束处置方面。本研究首次研究了碳纳米管聚丙烯复合材料(CNT-PP)在注射成型和回收过程中相对于PP的空气中纳米颗粒和纤维暴露情况。暴露表征主要集中在加载、熔化、成型、研磨和回收废料过程中的源排放,超过20个循环,包括总颗粒数、浓度和尺寸分布、纳米颗粒和纤维形态的实时表征。操作员附近的纤维浓度。在CNT-PP的加载、熔化、成型和磨削过程中,空气中释放的纳米颗粒浓度的几何平均值在1.2 × 10(3)至4.3 × 10(5)颗粒cm(-3)之间,注射成型和磨削过程中最高暴露量分别高达背景的2.9倍和300.7倍。这些排放大多与PP合成相似。碳纳米管-聚丙烯和聚丙烯的熔融和成型生产的独家纳米颗粒。对碳纳米管-聚丙烯进行研磨,而不是对PP进行研磨,会产生更大的CNTs包封颗粒、CNTs挤压颗粒和可呼吸纤维(高达0.2纤维cm(-3))。在任何过程中均未发现游离碳纳米管。循环使用次数对暴露量没有显著影响。对发射的纳米粒子的化学成分进行进一步的研究是必要的。同时,在碳纳米管-聚丙烯的加工和回收过程中,应建立暴露控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of Potential Exposures to Nanoparticles and Fibers during Manufacturing and Recycling of Carbon Nanotube Reinforced Polypropylene Composites.

Carbon nanotube (CNT) polymer composites are widely used as raw materials in multiple industries because of their excellent properties. This expansion, however, is accompanied by realistic concerns over potential release of CNTs and associated nanoparticles during the manufacturing, recycling, use, and disposal of CNT composite products. Such data continue to be limited, especially with regards to post-processing of CNT-enabled products, recycling and handling of nanowaste, and end-of-life disposal. This study investigated for the first time airborne nanoparticle and fibers exposures during injection molding and recycling of CNT polypropylene composites (CNT-PP) relative to that of PP. Exposure characterization focused on source emissions during loading, melting, molding, grinding, and recycling of scrap material over 20 cycles and included real-time characterization of total particle number concentration and size distribution, nanoparticle and fiber morphology, and fiber concentrations near the operator. Total airborne nanoparticle concentration emitted during loading, melting, molding, and grinding of CNT-PP had geometric mean ranging from 1.2 × 10(3) to 4.3 × 10(5) particles cm(-3), with the highest exposures being up to 2.9 and 300.7 times above the background for injection molding and grinding, respectively. Most of these emissions were similar to PP synthesis. Melting and molding of CNT-PP and PP produced exclusively nanoparticles. Grinding of CNT-PP but not PP generated larger particles with encapsulated CNTs, particles with CNT extrusions, and respirable fiber (up to 0.2 fibers cm(-3)). No free CNTs were found in any of the processes. The number of recycling runs had no significant impact on exposures. Further research into the chemical composition of the emitted nanoparticles is warranted. In the meanwhile, exposure controls should be instituted during processing and recycling of CNT-PP.

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