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多壁碳纳米管增强聚丙烯的环境老化与降解

Environmental aging and degradation of multiwalled carbon nanotube reinforced polypropylene.

作者信息

Han Changseok, Sahle-Demessie Endalkachew, Zhao Amy Q, Richardson Teri, Wang Jun

机构信息

Oak Ridge Institute for Science and Education, Oak Ridge, TN 37831, USA.

U.S. Environmental Protection Agency, Office of Research and Development, National Risk Management Laboratory, 26 W. Martin Luther King Drive, Cincinnati, OH 45268, USA.

出版信息

Carbon N Y. 2018;129:137-151. doi: 10.1016/j.carbon.2017.10.038.

DOI:10.1016/j.carbon.2017.10.038
PMID:32831356
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7433849/
Abstract

The degradation of polypropylene (PP) and PP-multiwalled carbon nanotube (PP-MWCNT) panels during environmental weathering resulted in an increased degree of crystallinity, making them brittle, and creating surface cracks. The degradation led to a breakdown of the panels and increased the potential for nanorelease. Thermal analysis revealed that the thickness of the test panels and reinforcement with MWCNTs had a significant influence on the stability of PP-MWCNT composites. Differential scanning calorimetry indicated that the MWCNTs acted as nucleation points, increasing the crystallization temperatures of PP-MWCNT, which reduced the extent of aging. Weathering decreased both the melting and crystallization temperatures of PP by as much as 20 o C. The reduction in the temperatures was inversely proportional to the thickness of the panels. The activation energy ( ) obtained using isoconversional kinetics of the TGA analysis showed that the effective thermo-oxidative degradations of PP changed during aging. The for the initial stages of thermal degradation decreased from ~330 kJ/mol to ~100 kJ/mol for aged PP. During the late degradation stages, the values increased to ~300 kJ/mol. These results suggest that early degradation were altered because of the changes in the molecular structure of the aged P and a shift in the degradation rate-limiting steps.

摘要

聚丙烯(PP)和聚丙烯-多壁碳纳米管(PP-MWCNT)板在环境老化过程中的降解导致结晶度增加,使其变脆,并产生表面裂纹。降解导致板材破裂,并增加了纳米释放的可能性。热分析表明,测试板的厚度和MWCNT增强对PP-MWCNT复合材料的稳定性有显著影响。差示扫描量热法表明,MWCNT作为成核点,提高了PP-MWCNT的结晶温度,从而降低了老化程度。老化使PP的熔融温度和结晶温度均降低了20℃之多。温度的降低与板材的厚度成反比。使用TGA分析的等转化率动力学获得的活化能( )表明,PP的有效热氧化降解在老化过程中发生了变化。老化PP的热降解初始阶段的活化能从约330 kJ/mol降至约100 kJ/mol。在降解后期,活化能值增加到约300 kJ/mol。这些结果表明,由于老化PP分子结构的变化和降解速率限制步骤的转变,早期降解发生了改变。