Analysis of Tire Tread Rubber Particles and Rubber Additives in Airborne Particulates at a Roadside

Japanese journal of toxicology and environmental health Pub Date : 1995-04-30 DOI:10.1248/JHS1956.41.155

Takako Yamaguchi, Hiroyasu Yamazaki, A. Yamauchi, Y. Kakiuchi

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引用次数: 5

Abstract

Rubber particles emitted by abrasion of automobile tire tread have caused environmental pollution, and may be hazardous to our health. In this study, airborne particulate samples were collected on the glass fiber filter using high-volume air sampler at the roadside of the 2-nd Shinmei highway in Kobe. Rubber particles in the roadside atmosphere were analyzed by pyrolysis gas chromatography. The concentration of rubber particles was estimated from the total amount of styrene and isoprene, because these two compounds are pyrolysates of styrene butadiene rubber and natural rubber which are main materials for tires. These concentrations were 0.5-10.5 μg/m3, which corresponded to 0.4-6.3% of total airborne particulates. These concentrations were higher than those in other reports, because the sampling point was the roadside of the highway in this experiment. Furthermore quantitative and qualitative analyses of rubber additives (Zn-DMDTC and IPPD) in airborne particulates were carried out by HPLC, GC and MS. Zn-DMDTC, after converted into Co-DMDTC, in airborne particulates was analyzed by HPLC. The concentrations of Zn-DMDTC were 0-5.1 pg/m3. The detected amount of Zn-DMDTC did not show mutagenic activity. However, in the case of long term exposure to these tire tread particles, we must take a hazardous effect by Zn-DMDTC into consideration. On the other hand, IPPD was confirmed in none of samples by GC and MS.

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路边空气中轮胎胎面橡胶颗粒及橡胶添加剂的分析

汽车轮胎胎面磨损产生的橡胶颗粒对环境造成了污染，并可能危害我们的健康。本研究采用大容量空气采样器在神户市新美2号高速公路路旁的玻璃纤维过滤器上采集空气微粒样本。采用热解气相色谱法对路边大气中的橡胶颗粒进行了分析。橡胶颗粒的浓度是由苯乙烯和异戊二烯的总量来估算的，因为这两种化合物是丁二苯橡胶和天然橡胶的热解产物，而丁二苯橡胶是轮胎的主要材料。这些浓度为0.5 ~ 10.5 μg/m3，相当于大气颗粒物总量的0.4 ~ 6.3%。这些浓度高于其他报道，因为本实验的采样点在高速公路的路边。采用高效液相色谱法、气相色谱法和质谱法对空气悬浮颗粒物中橡胶助剂Zn-DMDTC和IPPD进行了定量和定性分析，并对Zn-DMDTC转化为Co-DMDTC后的空气悬浮颗粒物进行了HPLC分析。Zn-DMDTC浓度为0 ~ 5.1 pg/m3。检测到的Zn-DMDTC没有表现出诱变活性。然而，在长期接触这些轮胎胎面颗粒的情况下，我们必须考虑到锌- dmdtc的有害影响。另一方面，通过气相色谱和质谱均未证实样品存在IPPD。

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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Japanese journal of toxicology and environmental health

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