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期刊信息
  • 主管单位:
  • 上海市教育委员会
  • 主办单位:
  • 上海理工大学
  • 主  编:
  • 庄松林
  • 地  址:
  • 上海市军工路516号
  • 邮政编码:
  • 200093
  • 联系电话:
  • 021-55277251
  • 电子邮件:
  • xbzrb@usst.edu.cn
  • 国际标准刊号:
  • 1007-6735
  • 国内统一刊号:
  • 31-1739/T
  • 邮发代号:
  • 4-401
  • 单  价:
  • 15.00
  • 定  价:
  • 90.00
王弘,李秀君.硅烷偶联剂溶液对废旧电路板非金属粉末改性沥青性能的影响试验分析[J].上海理工大学学报,2021,43(4):386-392.
硅烷偶联剂溶液对废旧电路板非金属粉末改性沥青性能的影响试验分析
Experimental analysis of the effect of silane coupling agent solution on properties of nonmetal powder modified asphalt for waste printed circuit boards
投稿时间:2020-12-29  
DOI:10.13255/j.cnki.jusst.20201229002
中文关键词:  改性沥青  废旧印刷电路板  非金属粉末  硅烷偶联剂  改性机理
英文关键词:modified asphalt  waste printed circuit boards  nonmetal powder  silane coupling agent  modification mechanism
基金项目:上海理工大学环境与建筑学院大学生创新创业项目;浙江省公路与运输管理中心科技计划项目(2019H15)
作者单位E-mail
王弘 上海理工大学 环境与建筑学院上海 200093  
李秀君 上海理工大学 环境与建筑学院上海 200093 363096289@qq.com 
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中文摘要:
      针对废旧电路板非金属粉末改性沥青在实际道路工程应用中存在的特点和不足,采用不同质量分数的硅烷偶联剂溶液(KH550)对非金属粉末(NMP)进行预处理,再用处理过的粉末作为改性剂改性沥青。通过对NMP改性沥青的高温性能、低温性能、感温性能和相容性能开展试验研究,最终得到KH550表面处理NMP的合理质量分数为2%。采用傅里叶红外光谱仪,研究了处理前后NMP的表面特性以及NMP改性沥青的微观改性机理。结果表明:采用硅烷偶联剂处理过的非金属粉末可显著提高NMP改性沥青的高温性能和存储稳定性,降低温度敏感性,但对其低温性能无明显改善。
英文摘要:
      In view of the characteristics and deficiencies of the nonmetal powder modified asphalt of waste printed circuit boards in the practical application of road engineering, the nonmetal powder (NMP) was pretreated with silane coupling agent solution (KH550) of different mass fractions, and then the powder modified asphalt was used. Through the high-temperature performance, low-temperature performance, temperature sensitivity and compatibility of NMP modified asphalt, the reasonable mass fraction of NMP for surface treatment of KH550 was finally obtained as 2%. The surface characteristics of NMP before and after treatment were studied by Fourier transform infrared spectrometer. The results show that the nonmetal powder treated with silane coupling agent can significantly improve the high-temperature performance and storage stability of NMP modified asphalt and reduce the temperature sensitivity, but it has no obvious improvement on the low-temperature performance.
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