Toxicological and hygienic assessment of modern thermo-insulating polymer materials during thermal exposure

Q4 Medicine

Gigiena i sanitariia Pub Date : 2023-08-30 DOI:10.47470/0016-9900-2023-102-7-726-731

P. Tolkach, V. Basharin, Yurii V. Shilov, Arkadii V. Yazenok, Alexander E. Antushevich, Gennadii G. Zagorodnikov

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Abstract

Introduction. Polyethylene and synthetic foam caoutchouc are used for thermal insulation of communications, at temperatures not exceeding 90 °C and 105 °C, respectively. Data on how these materials will behave in the appropriate temperature conditions was not be found. The purpose of the study was to conduct a toxicological and hygienic assessment of products made of polyethylene foam and synthetic foam rubber under thermal exposure. Materials and methods. The thermal effect on the studied samples was modelled in a climate chamber. The time interval during the mass loss of the samples was determined, a sanitary and chemical study of the gas-air mixture in the climatic chamber was carried out. To conduct a toxicological and hygienic study in animals, a swim-escape conditioned active avoidance response was developed. Results. Under thermal (90 °C) exposure for 72 hours to polyethylene tube, a loss of 0.77% of the initial mass of the sample occurs. Thermal exposure (105 °C) to synthetic foam caoutchouc resulted in a loss of 15.3% of the initial mass of the sample for 108 hours, while pronounced changes in the appearance of the samples were determined. When conducting a sanitary and chemical study in the climate chamber, an increase in the concentration of carbon monoxide was determined after 12, 24, and 72 hours and hydrogen chloride after 12 and 24 hours following the onset of thermal exposure compared with the values of their average daily maximum permissible concentration. Thermal exposure to the sample and synthetic foam caoutchouc led to an increase in the concentration of ammonia, carbon monoxide and hydrogen chloride 12 and 24 hours after the start of exposure compared with the average daily maximum permissible concentration. During the toxicological and hygienic study, animals exposed to thermal degradation products of the materials under study were revealed to show learning disabilities. Limitations. They are conditioned by the methodology of the study. A quantitative analysis of some gaseous thermal degradation products released into the climate chamber was performed, without taking into account the aerosols formed. Conclusion. Thermal insulation materials made of synthetic foam rubber and polyethylene foam lose their structural properties when they are operated in the maximum permissible temperature conditions (105 °C and 90 °C, respectively). When they are used in appropriate temperature conditions, the formation of toxic products occurs, the inhalation effect of which leads to a disturbances of the learning ability in laboratory animals.

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现代绝热高分子材料热暴露的毒理学和卫生评价

介绍。聚乙烯和合成泡沫用于通信隔热，温度分别不超过90°C和105°C。没有找到这些材料在适当温度条件下如何表现的数据。本研究的目的是对聚乙烯泡沫和合成泡沫橡胶制成的产品在热暴露下进行毒理学和卫生评估。材料和方法。研究样品的热效应是在一个气候室中模拟的。确定了样品质量损失的时间间隔，并对气候室内的气体-空气混合物进行了卫生和化学研究。为了对动物进行毒理学和卫生研究，建立了一种游动-逃逸条件下的主动回避反应。结果。在热(90°C)暴露于聚乙烯管72小时下，样品的初始质量损失为0.77%。热暴露(105°C)合成泡沫caoutchouc导致样品的初始质量损失15.3%，108小时，同时确定了样品外观的显著变化。在气候室内进行卫生和化学研究时，测定了热暴露开始后12、24和72小时后一氧化碳浓度的增加，以及在12和24小时后氯化氢浓度的增加，与它们的平均每日最大允许浓度值进行了比较。与平均每日最大允许浓度相比，热暴露于样品和合成泡沫caoutchouc导致在开始暴露12和24小时后氨、一氧化碳和氯化氢的浓度增加。在毒理学和卫生学研究中，暴露于所研究材料的热降解产物的动物显示出学习障碍。的局限性。它们受研究方法的制约。在不考虑形成的气溶胶的情况下，对释放到气候室的一些气体热降解产物进行了定量分析。结论。合成泡沫橡胶和聚乙烯泡沫制成的保温材料在允许的最高温度条件下(分别为105℃和90℃)工作时，其结构性能会丧失。当它们在适当的温度条件下使用时，会形成有毒产物，其吸入效应导致实验动物的学习能力受到干扰。

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来源期刊

Gigiena i sanitariia Environmental Science-Pollution

CiteScore

0.80

自引率

0.00%

发文量

192