宋楊,男,1988年8月生,河南夏邑人,博士研究生,教授,主要從事土木工程材料、流體力學等方面的教學與研究工作。
受教育經曆
2005.9-2009.6,西南交通大學,土木工程專業
2009.9-2011.9,西南交通大學,道路與鐵道工程專業
2011.9-2014.6,法國裡爾中央理工大學,土木工程專業
研究工作經曆
2014.7-2015.12,法國裡爾中央理工大學,博士後研究
2016.2-2020.8,bevictor伟德官网,講師
2020.9-2023.7,bevictor伟德官网,副教授
2023.8-至今,bevictor伟德官网,教授
代表性科研項目
1. 國家自然科學基金面上項目,2022.1-2025.12,主持,考慮水敏性的非飽和混凝土孔隙結構演變規律及其氣體滲透機理研究
2. 國家自然科學基金青年基金項目,2018.1-2020.12,主持,基于多尺度圖像分析的混凝土滲透特性研究
代表性論文著作
1. Song Y , Wu Q , Agostini F , et al. Concrete shrinkage and creep under drying/wetting cycles[J]. Cement and Concrete Research, 2021, 140(4):106308.
2. Song, Y., Davy, C. A., Troadec, D., & Bourbon, X. Pore network of cement hydrates in a High Performance Concrete by 3D FIB/SEM — Implications for macroscopic fluid transport[J]. Cement and Concrete Research, 2019, 115:308-326.
3. Song Y , Dai G , Zhao L , et al. Permeability prediction of hydrated cement paste based on its 3D image analysis[J]. Construction and Building Materials, 2020, 247:118527.
4. Y Song, Dai G , J Zhou, et al. Characterizing Porous Volume of Cement-Based Concrete by Multiscale Image Analysis[J]. Journal of Materials in Civil Engineering, 2020, 32(9):04020267.
5. Song Y , Davy C A , Troadec D , et al. Gas Breakthrough Pressure (GBP) through Claystones: Correlation with FIB/SEM Imaging of the Pore Volume[J]. Oil & Gas Science & Technology, 2018, 71(4).
6. Song Y , Davy C A , Bertier P , et al. On the porosity of COx claystone by gas injection[J]. Microporous & Mesoporous Materials, 2017, 239:272-286.
7. Song Y , Davy C A , Kim T N , et al. Two-scale analysis of a tight gas sandstone[J]. Phys.rev.e, 2016, 94(4):043316.
8. Song, Yang, Davy, et al. Understanding fluid transport through claystones from their 3D nanoscopic pore network.[J]. Microporous & Mesoporous Materials, 2016, 228:64-85.
9. Song Y , Davy C A , Troadec D , et al. Multi-scale pore structure of COx claystone: Towards the prediction of fluid transport[J]. Marine & Petroleum Geology, 2015, 65:63-82.
科研與教學獎勵
1. 常州市第十六次自然科學優秀科技論文三等獎,2021年
2. 江蘇省高等學校科學技術研究成果獎三等獎,2021年
主要研究方向
混凝土孔隙結構及傳輸機理研究,綠色高性能混凝土研究
聯系方式
songy@czu.cn
