个人简介

男，1993年10月出生于山西太原，工学博士，讲师，2016年重庆交通大学获学士学位，2019年武汉理工大学获硕士学位，2024年东南大学获博士学位，2022年9月-2023年9月在德国亚琛工业大学进行为期一年的联合培养。主要从事装配式弹性沥青道床成套技术，环氧沥青混合料增韧技术，沥青材料疲劳和自愈合性能研究。参与国家级项目3项，省部级项目3项，博士期间主持东南大学优秀博士论文基金项目1项，公开发表学术论文25篇，专利授权7项。长期担任国外期刊审稿人，如Construction and Building Materials和Theoretical and Applied Fracture Mechanics。

研究方向

1. 环氧沥青弹性道床材料设计

2. 装配式沥青道床结构动力学

3. 环氧沥青韧性提升技术

4. 沥青材料的疲劳和自愈合性能研究

主讲课程

无

学术兼职

无

1.论文

1. Shi, C., Sun, X., Wang, T., Wu, Y., Liu, S., Wang, H., Yang, J.*, Xu, Y., and Qie, L. (2022). Numerical analysis of dynamic behavior of Bi-block precast asphalt trackbed for High-Speed railway. Construction and Building Materials, 342. (SCI, Q1, IF=7.4, 第一作者)

2. Shi, C., Zhou, W., Wang, T., Cai, X., Wang, H., Yang, J.*, Hong, J., and Gong, M. (2022). Fatigue performance characterization of styrene-butadiene-styrene and crumb rubber composite modified asphalt binders with high crumb rubber contents. Journal of Cleaner Production, 331. (SCI, Q1, IF=11.1, 第一作者)

3. Shi, C., Luo, R., Liu, H., and Yang, J.* (2022). Evaluation of self-healing characteristics of asphalt materials by intermittent loading tests. Road Materials and Pavement Design, 23, 2684-2696. (SCI, Q2, IF=3.8, 第一作者)

4. Shi, C., Zhang, H., Wang, T., Zhou, Y., Liu, S., Wang, H., Yang, J.*, Xu, Y., and Qie, L. (2021). Design and performance evaluation of Bi-block precast rubberized epoxy asphalt trackbed for railway. Construction and Building Materials, 313. (SCI, Q1, IF=7.4, 第一作者)

5. Shi, C., Cai, X., Wang, T., Yi, X., Liu, S., Yang, J.*, and Leng, Z. (2021). Energy-based characterization of the fatigue crack density evolution of asphalt binders through controlled-stress fatigue testing. Construction and Building Materials, 300. (SCI, Q1, IF=7.4, 第一作者)

6. Shi, C., Cai, X., Yi, X., Wang, T., and Yang, J.* (2021). Fatigue crack density of asphalt binders under controlled-stress rotational shear load testing. Construction and Building Materials, 272. (SCI, Q1, IF=7.4, 第一作者)

7. Shi, C., Wu, Y., Wang, T., Yu, Y., Wang, H., & Yang, J. * (2023). Rheological properties and polymer phase structure characterization of SBS/CR composite modified asphalt (CMA) binders. Materials and Structures, 56(2). (SCI, Q2, IF=3.8, 第一作者)

8. Shi, C., Wu, Y., Wang, H., Liu, S., Liu, P., Yang, J. * & Huang W. (2023). Analysis of crumb rubber content influence on damage evolution and pattern recognition of rubberized epoxy asphalt mixture using acoustic emission techniques. International Journal of Pavement Engineering. (SCI, Q2, IF=3.8, 第一作者)

9. Wu, Y., Shi, C., Yu, Y., Chen, H., Fan, Y., Wang, H., & Huang, W. (2023). Dynamic behavior of precast epoxy asphalt track bed for transition zone in high-speed railway: A numerical approach. Transportation Geotechnics, 40. (SCI, Q2, IF=5.3 第二作者)

10. Liu, S., Shi, C., Wang, T., Yang, J. *, & Chen, X. (2023). Development of a new modified TSRST test to measure the thermal stress of asphalt supporting layer in the slab track system. Measurement, 207. (SCI, Q1, IF=5.0 第二作者)

11. Yu, Y., Shi, C., Xu, G., Yao, Z., Wang, T., Wu, Y., Yi, X., Wang, H., and Yang, J.* (2022). Application of nanoindentation in asphalt material aging and characterization of actual pavement aging. Construction and Building Materials, 331. (SCI, Q1, IF=7.4, 第二作者)

12. Wang, T., Shi, C., Yu, Y., Xu, G., Liu, S., Wang, H., Yang, J.*, Gong, M., Xu, Y., and Qie, L. (2022). Mechanical properties evaluation of crumb rubber asphalt mixture for elastic trackbed. Construction and Building Materials, 331. (SCI, Q1, IF=7.4, 第二作者)

13. Cai, X., Shi, C., Chen, X., and Yang, J.* (2021). Identification of damage mechanisms during splitting test on SFP at different temperatures based on acoustic emission. Construction and Building Materials, 270. (SCI, Q1, IF=7.4, 第二作者)

14. Li Z., Wang H., Shi, C., Cai, X., Yang, J.,* and Yu, Y. (2021).Evaluation of the fractures of asphalt concrete added with rubber particles based on the fine aggregate mixtures Construction and Building Materials, 332. (SCI, Q1, IF=7.4, 第三作者)

15. Wang, T., Xu, G., Shi, C., Xu, X., Yu, Y., Gong, M., and Yang, J.* (2021). Rheological properties of aged bitumen rejuvenated by polymer modified bio-derived rejuvenator. Construction and Building Materials, 298. (SCI, Q1, IF=7.4, 第三作者)

16. Yi, X., Dong, R., Shi, C., Yang, J.*, and Leng, Z. (2022). The influence of the mass ratio of crumb rubber and waste cooking oil on the properties of rubberised bio-rejuvenator and rejuvenated asphalt. Road Materials and Pavement Design. (SCI, Q2, IF=3.8, 第三作者)

17. Li, Z., Wang, H., Shi, C., Cai, X., Yang, J.*, & Yu, Y. (2022). Evaluation of the fractures of asphalt concrete added with rubber particles based on the fine aggregate mixtures. Construction and Building Materials, 332. (SCI, Q1, IF=7.4, 第三作者)

18. Wu, Y., Xue, J., Yu, Y., Shi, C., et al., Yang, J.*, & Huang, W. (2024). Research of reflective crack in asphalt pavement using SCB specimen and XFEM: from laboratory test to numerical simulation. Construction and Building Materials. (SCI, Q1, IF=7.4, 第四作者)

19. Cai, X., Leng, Z.*, Ashish, P. K., Shi, C., Yang, J., & Gong, M. (2023). Temperature dependency analysis of the fracture characteristics of semi-flexible pavement (SFP) mixtures using acoustic emission technique. International Journal of Pavement Engineering, 24(1). (SCI, Q2, IF=3.8, 第四作者)

20. Wu, Y., Huang, P., Yu, Y., Shi, C., Chen, H., Wang, H., & Huang, W. (2023). Nonlinear rheological performance characterization of styrene-butadiene-styrene and crumb rubber composite modified bitumen using large amplitude oscillatory shear tests. Journal of Cleaner Production, 385. (SCI, Q1, IF=11.1, 第四作者)

21. Yi, X., Chen, H., Wang, H., Shi, C., and Yang, J.* (2022). The feasibility of using epoxy asphalt to recycle a mixture containing 100% reclaimed asphalt pavement (RAP). Construction and Building Materials, 319. (SCI, Q1, IF=7.4, 第四作者)

22. Yi, X., Dong, R., Zhao, M., Shi, C., and Yang, J.* (2021). The interaction mechanism and rejuvenation effect of crumb rubber and waste cooking oil blends. Construction and Building Materials 302. (SCI, Q1, IF=7.4, 第四作者)

23.  罗蓉*，石晨光，冯光乐. 沥青自愈合性能评价指标修正及应用[J].中国公路学报,2019,32(11):103-108. (EI)

24. 罗蓉*，石晨光，樊向阳，冯光乐. 动态贯入下浇注式沥青混合料的永久变形研究[J].华中科技大学学报(自然科学版),2018,46(07):13-16. (EI)

25. 黄鹏，石晨光，吴忧，王厚植，杨军*. 基于离散元的沥青弹性道床材料力学行为分析[J]. 中国铁路，2022(08)：208-215.

2.专利

1.用于高铁路桥过渡段的装配式环氧沥青弹性道床 第二发明人（导师第一发明人）  发明专利授权

2.一种沥青固化道床试件成型方法 第三发明人  发明专利授权

3.一种沥青固化道床试件成型模具 第三发明人  实用新型授权

4.应用于预制弹性道床结构的沥青混合料、试样及制备方法 第四发明人  发明专利授权

5.一种基于压痕测试的沥青混合料老化梯度的原位表征方法 第四发明人 发明专利授权

6.一种小应变条件下沥青混合料长期蠕变性能加速试验方法 第五发明人  发明专利授权

7.基于拉曼光谱的多壁碳纳米管改性沥青中碳纳米管含量与分散状态的测定方法  第四发明人  发明专利授权

联系方式

chenguangshi@cqjtu.edu.cn