中文版    |     ENGLISH    |     Tianjin University

Civil Engineering

Yang Rongwei




杨荣伟 副教授 的个人资料






姓名(中文/汉语拼音)

杨荣伟 /Rongwei Yang














职称

副教授


职务



导师资格

硕导


所在系、所

建工学院土木工程系


通讯地址

天津市津南区天津大学北洋园校区43号楼C225


电子信箱



办公室电话



主要研究方向:

1、 极端环境下水泥基材料物理-化学-力学行为研究

2、 孔隙材料微观结构无损试验表征和微细观力学试验研究

3、孔隙力学及微细观力学

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Research Interests:

1、 Physico-chemical-mechanical behaviors of cement-based materials in harsh environments

2、 Non-destructive experimental characterization of microstructure of porous materials and micromechanical experimental study of mechanical behavior of porous materials

3、Porous mechanics & Micromechanics


主要学历:

2009.11-2013.09:法国国立路桥学校(东巴黎大学) 材料与结构专业 科学博士学位

2006.09-2009.07: 清华大学 土木工程 工学硕士学位

2000.09-2004.07: 福州大学 土木工程 工学学士学位

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2009.11-2013.09: Ph.D in Materials and Structures, Ecole des Ponts, ParisTech, University of Paris-Est

2006.09-2009.07: M.Eng in Civil Engineering, Tsinghua University

2000.09-2004.07: B.Eng in Civil Engineering, Fuzhou University


主要学术经历:

2017.04-至今:天津大学建工学院副教授

2013.12-2016.03: 清华大学土木系博士后

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2017.04-present:Associate professor at School of Civil Engineering, Tianjin University

2013.12-2016.03: Postdoc at Department of Civil Engineering, Tsinghua University


主要讲授课程:

土木工程建筑材料(本科生)


主要学术兼职:

-本行业国际学术期刊Cement and Concrete Research, Construction and Building materials, Journal of materials Science, Journal of Petroleum Science and Technology 论文评阅人。


主要学术成就、奖励及荣誉:

-


主要科研项目及角色:

国家自然科学青年基金项目:干湿循环作用下水泥基孔隙材料硫酸盐结晶的试验和微细观力学研究(51708404),2018-2020,项目负责人

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Research Grants:

1、Micromechanical and experimental study of sulphate crystallization in cement-based materials subjected to wetting-drying cycles. National Natural Science Foundation of China, Grant No. 51708404 (2018-2020). PI.


代表性论文 / 论著及检索情况:

See (https://www.researchgate.net/profile/Rongwei_Yang4/contributions?ev=prf_act) for details.

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13. Mingliang Zhang, Jiyun SHEN, Rongwei YANG*, Hongfei Ji, Jiadi Ding. Effect of curing age on the microstructure and hydration behavior of oil well cement paste cured at high temperature. Journal of materials in Civil Engineering-ASCE, Accept.

12. Niu Z, Shen J, Wang L, Yang R*. Thermo-poroelastic modelling of cement sheath: pore pressure response, thermal effect and thermo-osmotic effect. European Journal of Environmental and Civil Engineering, 2019: 1-26.

11. Wang L, Yang R, Chanchole S, et al. The time-dependent swelling of argillaceous rock under resaturated conditions. Applied Clay Science, 2017, 146: 186-194.

10. Han B, Zhang L, Zeng S, Dong S, Yu X, Yang R, OU J. Nano-core effect in nano-engineered cementitious composites. Composites Part A: Applied Science and Manufacturing, 2017, 95: 100-109.

9. Yang R, Li K, Wang L, et al. A micro-experimental insight into the mechanical behavior of sticky rice slurry-lime mortar subject to wetting-drying cycles. Journal of Materials Science, 2016, 51(18): 8422-8433.

8. Yang R, Zhang Z, Xie M, et al. Microstructural insights into the lime mortars mixed with sticky rice sol–gel or water: A comparative study. Construction and Building Materials, 2016, 125: 974-980.

7. Yang R, Lemarchand E, Fen-Chong T, et al. Prediction of permeability of monodisperse granular materials with a micromechanics approach. Journal of Applied Geophysics, 2016, 127: 82-90.

6. Wang L, Yang D, Yang R, et al. Investigating the mechanical behavior of shale: A micro-scale approach. Journal of Natural Gas Science and Engineering, 2016, 36: 1295-1302.

5. Yang R, Li K, Lemarchand E, et al. Micromechanics modeling the solute diffusivity of unsaturated granular materials. International Journal of Multiphase Flow, 2016, 79: 1-9.

4. Yang R, Lemarchand E, Fen-Chong T. A micromechanics model for solute diffusion coefficient in unsaturated granular materials. Transport in Porous Media, 2016, 111(2): 347-368.

3. Yang R, Lemarchand E, Fen-Chong T, et al. A micromechanics model for partial freezing in porous media. International Journal of Solids and Structures, 2015, 75: 109-121.

2. Yang R, Gui Q, Lemarchand E, Fen-Chong T, Li K. Micromechanical modeling of transport properties of cement-based composites: role of interfacial transition zone and air voids. Transport in Porous Media, 2015, 110(3): 591-611.

1. Yang R, Lemarchand E, Fen-Chong T, Li K. Micromechanics modeling the solute diffusion in unsaturated hardened cement paste. 4th RILEM International Symposium on Concrete Modelling (CONMOD 2014), Beijing, Oct 2014.