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纳观尺度下再生沥青-集料界面性质的分子模拟 被引量:1

Molecular simulation study on the interfacial properties of recycled asphalt-aggregate at the nanoscale
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摘要 通过分子动力学模拟,探讨了再生沥青与集料界面的黏附性能及生物再生剂对老化沥青的影响机制。合理构建了老化沥青以及添加2%腰果壳油、2%妥尔油两种生物再生剂后的沥青模型。进一步建立石灰岩集料模型,采用直接拉伸模拟计算了沥青-集料界面的相互作用能表征黏附性能,最后通过均方位移和相对浓度解释了沥青分子在界面的扩散行为和生物再生剂改善机制。研究结果表明,腰果壳油通过π-π堆积作用和酚基极性改善了老化沥青的聚集行为,黏附性能提高约32%;妥尔油通过其分子支链结构的解聚作用改善了老化沥青的分散性,黏附性能提高约17%。研究创新性地结合界面拉伸模拟与生物再生剂,系统揭示了生物再生剂对沥青-集料界面黏附性能的影响机制,为沥青-集料界面的黏附性能优化和生物再生剂在沥青中的应用提供了理论支持,对沥青路面中的沥青-集料界面性能表征试验的跨尺度研究具有重要的指导意义。 The adhesion performance of recycled asphalt binder and aggregate interfaces as well as the influence mechanisms of bio-rejuvenators on aged asphalt was investigated through molecular dynamics simulations.Models of aged asphalt and asphalt rejuvenated with 2%cashew shell oil and 2%tall oil were constructed.A limestone aggregate model was further developed and direct tensile simulations were conducted to calculate the interaction energy at the asphalt-aggregate interface,characterizing the adhesion performance.Additionally,mean square displacement and relative concentration were used to explain the diffusion behavior of asphalt molecules at the interface and the improvement mechanisms of bio-rejuvenators.The results showed that cashew shell oil improved the adhesion performance by approximately 32%,primarily through π-π stacking interactions and the polarity of phenolic groups,which reduced the aggregation of aged asphalt.Tall oil enhanced adhesion by about 17%,improving the dispersion of aged asphalt molecules through the depolymerization effect of its molecular branched structure.This study innovatively combined interface tensile simulations with bio-rejuvenators,systematically revealing the influence of bio-rejuvenators on the asphalt-aggregate interface adhesion.The findings provided theoretical support for optimizing the adhesion performance at the asphalt-aggregate interface and for the application of bio-rejuvenators in asphalt,offering important guidance for cross-scale studies on asphalt aggregate interface performance in pavement engineering.
作者 刘燕燕 李飞泉 刘栋 王俊涛 罗雪 Yanyan;LI Feiquan;LIU Dong;WANG Juntao;LUO Xue(Zhejiang Shunchang High Grade Highway Maintenance Limited Liability Company,Hangzhou 310051,Zhejiang,China;Zhejiang Provincial Highway and Transportation Management Center,Hangzhou 310009,Zhejiang,China;College of Civil Engineering and Architecture,Zhejiang University,Hangzhou 310058,Zhejiang,China)
机构地区 浙江顺畅高等级公路养护有限公司 浙江省公路与运输管理中心 浙江大学建筑工程学院
出处 《化工进展》 北大核心 2025年第8期4302-4310,共9页 Chemical Industry and Engineering Progress
基金 浙江省交通运输科技计划(2023021)。
关键词 再生 分子模拟 界面 热力学性质 黏附性能表征 生物再生剂 regeneration molecular simulation interface thermodynamic properties characterization of adhesion performance bio-rejuvenator
分类号 TQ05 [化学工程] TH3 [机械工程—机械制造及自动化]
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参考文献7

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  • 1丛玉凤,廖克俭,翟玉春.分子模拟在SBS改性沥青中的应用[J].化工学报,2005,56(5):769-773. 被引量:25
  • 2卢百平,钟仁显.分子动力学在材料科学中的应用[J].铸造技术,2007,28(1):146-148. 被引量:6
  • 3CHEN J S,HUANG C C,CHU P Y,et al.Engineering characterization of recycled asphalt concrete and aged bitumen mixed recycling agent[J].Journal of Material Science,2007,42:9867-9876.
  • 4CHIU C T,CHIU Y H.Study of aging characteristics of recycled asphalt binders:focusing on the chemical properties[J].International Journal of Pavement Research and Technology,2008,1(1):17-23.
  • 5JUNAN SHEN,SERJI AMIRKHANIAN,BOMING TANG.Effects of rejuvenator on performance-based properties of rejuvenated asphalt binder and mixtures[J].Construction and Building Materials,2007,21:958-964.
  • 6JUNAN SHEN,YOSHIO OHNE.Determining rejuvenator content for recycling reclaimed asphalt pavement by SHRP binder specifications[J].The International Journal of Pavement Engineering,2002,3(4):261-268.
  • 7CELIK F A,OZGEN S,YILDIZ A K.A molecular dynamics study on intermediate structures during transition from amorphous to crystalline state[J].Molecular Simulation,2006,32(6):443-449.
  • 8YANG JIAN-YONG,YAN QI-LIANG,LIU HONG-LAI,et al.A molecular thermodynamic model for binary lattice polymer solutions[J].Polymer,2006,47(14):5187-5195.
  • 9CONG YU-FENG,HUANG WEI,LIAO KE-JIAN,et al.Study on composition and structure of Liaoshu asphalt[J].Petroleum Science and Technology,2004,22(3):1447-1454.
  • 10LAURENT M,DIDIER M,JEAN P P,et al.Estimation of average structural parameters of bitumens by 13C nuclear magnetic resonance spectroscopy.Fuel,1997,76(1):9-15.

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化工进展
2025年 第8期

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