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[21]Du YF, Xu L, Deng HB, Deng DY.Evaluation of cooling and high-temperature performances of asphalt mixture containing fly ash cenosphere.Construction and Building Materials, 2020, 245: 118429.
[22]Du YF, Dai MX, Deng HB, Deng DY, Ma C, Cheng PF.Incorporating hollow glass microsphere to cool asphalt pavement: preliminary evaluation of asphalt mastic[J].Construction and Building Materials, 2020, 244: 118380.
[23]Du YF, Xu L, Deng HB, Deng DY, Ma C.Characterization of thermal, high-temperature rheological and fatigue properties of asphalt mastic containing fly ash cenosphere[J].Construction and Building Materials, 2020, 233: 117345.
[24]Du YF (通讯作者), Deng DY, Deng HB.Using lightweight materials to enhance thermal resistance of asphalt mixture for cooling asphalt pavement[J].Advances in Civil Engineering, 2019, 2019: 5216827.
[25]Du YF, Kong LX, Wei TZ.Laboratory investigation into early-age strength improvement of cold recycled asphalt mixture containing asphalt emulsion and cement[J].Advances in Civil Engineering, 2019, 19: 7274204.
[26]Du YF, Liu PS, Wang JC.Laboratory investigation of phase change effect of polyethylene glycolon on asphalt binder and mixture performance[J].Construction and Building Materials, 2019, 212: 1-9.
[27]Du YF, Liu PS, Zhang J, Tian J, Zheng Y.Preliminary investigation of the feasibility of using Superpave gyratory compactor to design cement treated aggregate mixture[J].Applied Science, 2018, 8 (6) : 946.
[28]Du YF, Chen JQ, Han Z, Liu WZ.A review on solutions for improving rutting resistance of asphalt pavement and test methods[J].Construction and Building Materials, 2018, 168: 893-905.
[29]Du YF, Han Z, Chen JQ, Liu WZ.A novel strategy of inducing solar absorption and accelerating heat release for cooling asphalt pavement[J].Solar Energy, 2018, 159: 125-133.
[30]Du YF, Wang SY, Wang SJ et al.Integrative heat-dissipating structure for cooling permafrost embankment[J].Cold Regions Science and Technology, 2016, 129: 85-95.
[31]Du YF, Wang SY, Wang SJ et al.Cooling permafrost embankment by enhancing oriented heat conduction in asphalt pavement[J].Applied Thermal Engineering, 2016, 103: 305-313.
[32]Du YF, Zhang J, Wang SY.Inhibition and removal of thin Ice on the surface of asphalt pavements by hydrophobic method[J].Journal of Testing and Evaluation, 2016, 44 (2) : 711-718.
[33]Du YF, Wang SY.Oriented heat release in asphalt pavement induced by high-thermal-conductivity rods[J].Applied Thermal Engineering, 2015, 90: 424-431.
[34]Du YF, Zhang J, Wang SY.Cooling asphalt pavement by a high orientation heat conduction structure[J].Energy and Buildings, 2015, 102: 187-196.
[35]Du YF, Wang SY.A peg-top oriented thermal conductive structure of asphalt pavement for improving urban microclimate[C].Advanced Materials Research, 2015, 1079: 469-475.
[36]Du YF, Shi Q, Wang SY.Bidirectional heat induced structure of asphalt pavement for reducing pavement temperature[J].Applied Thermal Engineering, 2015, 75: 298-306.
[37]Du YF, Shi Q, Wang SY.Highly oriented heat-induced structure of asphalt pavement for reducing pavement temperature[J].Energy and Buildings, 2014, 85: 23-31.
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