1. 代表性学术论文:
[1] Liu Zhiyang, Wang Peng, Huang Zhenfu, et al. Nano-micelle formation and aggregation in SBS-Modified asphalt induced by π-π interaction using molecular dynamics[J]. Materials & Design, 2024, 237: 112571.
[2] 刘志杨, 董泽蛟, 周涛, 等. 基于材料信息学的沥青混合料性能提升综述及展望[J]. 中国公路学报,2024,37(04):98-120.
[3] Liu Zhiyang*, Dong Zejiao*, Tao Zhou, et al. Water vapor diffusion models in asphalt mortar considering adsorption and capillary condensation [J]. Construction and Building Materials, 2021(308): 15.
[4] Liu Zhiyang, Cao Liping, Zhou Tao, et al. Multiscale investigation of moisture-induced structural evolution in asphalt–aggregate interfaces and analysis of the relevant chemical relationship using atomic force microscopy and molecular dynamics[J]. Energy & Fuels 2020 34 (4), 4006-4016
[5] Liu Zhiyang, Wang Haipeng, Gong Xiangbing, et al. Stiffening and toughening of asphalt mastic induced by bitumen–mineral selective molecular adsorption and nanostructural reconstruction [J]. Sustainability, 2023, 15, 4398
[6] Dong Zejiao*, Liu Zhiyang, Yang Chen, et al. Viscosity characterization of confined bitumen considering microaggregate‐bitumen interactions. Computer-Aided Civil and Infrastructure Engineering, 2020; 1-15.
[7] Dong Zejiao*, Liu Zhiyang, Wang Peng, et al. Nanostructure characterization of asphalt-aggregate interface through molecular dynamics simulation and atomic force microscopy[J]. Fuel, 2017, 189: 155-163.
[8] Dong Zejiao*, Liu Zhiyang, Wang Peng, et al. Modeling asphalt mastic modulus considering substrate–mastic interaction and adhesion[J]. Construction and Building Materials, 2018: 324-333.
[9] Liu Zhiyang*, Dong Zejiao*, Gong Xiangbing, at al. Micromechanics analysis of viscoelastic properties for asphalt mastic under a long-term water exposure. 101st annual Meeting of the Transportation Research Board, Washington, D.C. 2022.
[10] Dong, Zejiao*, Liu Zhiyang. Effects of aggregate mineralogy on rheology of asphalt mastics. 96th annual Meeting of the Transportation Research Board, Washington, D.C. 2017.
[11] Zhang Yuan, Leng Zhen, Dong Zejiao*, Liu Zhiyang, Zeyu Zhang, and Zhifei Tan. Performance verification of various bulk density measurement methods for open-and gap-graded asphalt mixtures using X-ray computed tomography[J]. Construction and Building Materials 158 (2018): 855-863.
[12] Wang Peng, Dong Zejiao*, Tan Yiqiu, Liu Zhiyang. Investigating the interactions of the saturate, aromatic, resin, and asphaltene four fractions in asphalt binders by molecular simulations. Energy & Fuels, 2015, 29(1):112–121.
[13] Wang Peng, Dong Zejiao*, Tan Yiqiu, Liu Zhiyang. Anti-ageing properties of styrene–butadiene–styrene copolymer-modified asphalt combined with multi-walled carbon nanotubes[J]. Road Materials and Pavement Design, 2017, 18(3): 533-549.
[14] Wang Peng, Dong Zejiao*, Tan Yiqiu, Liu Zhiyang. Identifying the rheological properties of polymer-modified bitumen based on its morphology. Road Materials and Pavement Design, 2017, 18(S3): 249-258.
[15] Wang Peng, Dong Zejiao*, Tan Yiqiu, Liu Zhiyang. Effect of multi-walled carbon nanotubes on the performance of styrene-butadiene- styrene copolymer modified asphalt, Materials and Structures, 2017, 50(1): 17.
[16] Wang Peng, Dong Zejiao*, Liu Zhiyang. Influence of carbon nanotubes on morphology of asphalts modified with styrene–butadiene–styrene[J]. Transportation Research Record: Journal of the Transportation Research Board, 2017 (2632): 130-139.
[17] 王鹏,董泽蛟*,谭忆秋,刘志杨. 基于分子模拟探究沥青蜂窝结构的成因[J]. 中国公路学报, 2016, 29(3):9-16.
[18] Dong Zejiao*, Gong Xiangbing, Liu Zhiyang. Rheological characterization of SBS modified asphalt utilizing different modified parallel plates. 94th annual Meeting of the Transportation Research Board, Washington, D.C., 2015.
[19] 董泽蛟*, 肖峰, 刘志杨, 周涛. 基于FEM的无机结合料稳定类基层沥青路面冻融影响评价试验设计. 世界交通大会, 北京, 2018.
2.授权专利:
[1] 刘志杨, 邹洪涛, 石灿, 汤天笑. 一种模量匹配的沥青路面柔性三向应变传感器. ZL202320607251.0, 2023
[2] 董泽蛟, 刘志杨, 姚蒙阳. 一种常水头的沥青混合料多向渗流测试装置. ZL108613914B, 2021.
[3] 董泽蛟, 刘志杨, 周涛. 一种基于动态剪切流变试验的集料-胶浆弱边界层测试方法. ZL107843504B, 2020.
[4] 董泽蛟, 刘志杨, 杨晨. 一种考虑基板-胶浆交互作用的体相沥青胶浆动态剪切复数模量测试方法ZL107817174B, 2019.
[5] 董泽蛟, 隋鑫, 刘志杨. 一种常水头的沥青混合料多向渗流试验方法.ZL201910420727.8,2022.
[6] 董泽蛟, 王元, 刘志杨, 龚湘兵, 曹羽, 栾海. 测定集料-沥青胶浆界面在拉剪混合模态下曲折破坏强度的试验装置及方法. ZL104833576A, 2018.
[7] 董泽蛟, 龚湘兵, 刘志杨, 李红飞. 沥青砂浆成型、测量装置及其沥青砂浆动态剪切参数的测试方法ZL105300758A, 2018.
[8] 董泽蛟, 杜尚波, 路石鑫, 刘志杨. 一种评价加压条件下沥青胶浆水蒸汽渗透实验装置. ZL103776749A, 2016.
[9] 董泽蛟, 龚湘兵, 谭忆秋, 刘志杨,李红飞. 沥青动态剪切参数测试装置及其测试方法. ZL105136557A, 2017.
[10] 刘志杨, 李洪峰, 张光洙, 等. 全自动实时监控发泡性能的泡沫沥青发生装置及制备方法. 202410654212.5, 2024
[11] 董泽蛟, 周涛, 刘志杨, 栾海. 基于MTS加载的沥青混合料疲劳测试方法. CN201610311458.8, 2016.
[12] 董泽蛟, 周涛, 刘志杨. 中空沥青混合料马歇尔试件模具. CN201810653430.1, 2018.
[13] 董泽蛟, 隋鑫, 刘志杨. 一种沥青混合料多向动水冲刷试验装置及试验方法. CN201910407821.X, 2017
专著:
[1] 参编《沥青混合料多尺度力学行为及损伤特性》,人民交通出版社股份有限公司, 2022.
