成员-members
魏亚-Ya Wei 博士后-Postdoctor 研究生-Postgraduate 毕业生-Alumni

郭为强 Weiqiang Guo

中文 Chinese

学历:博士研究生
专业:土木工程
学位:工学博士
研究方向:水泥基材料徐变与力学性能研究
Email:15201342510@163.com

经历

2021.9-            清华大学 土木工程专业 博士
2014.9-2017.6 清华大学 土木工程专业 硕士
2010.9-2014.6 北京交通大学 土木工程专业 学士

曾获奖项

清华之友-山西佳维硕士奖学金(2014年);
中国港湾一等奖学金(2015年);

科研成果

  1. Guo W, Huang X, Zhao L, et al. Transverse Cracking of Concrete Base Plate in CRTS III Ballastless Track Structure: Effects of Environmental Boundary Conditions. Applied Sciences, 2021, 11(21): 10400.
  2. Liu Y, Wei, Y, Guo W. Effect of filler size and shape on the properties of ultra-high performance concrete. ASCE Journal of Materials in Civil Engineering, 33, No.5 (2021).
  3. Wei Y, Guo W, Wu Z, Gao X, Computed permeability for cement paste subject to freeze-thaw cycles at early ages, Construction and Building Materials, 2020, 224, 118298.
  4. Huang, W., Guo, W., Wei, Y. Prediction of paving performance for epoxy asphalt mixture by its time and time-dependent properties, ASCE’s Journal of Materials in Civil Engineering, 2020, 32(3):04020017-1-12.
  5. Huang W, Guo W, Wei Y. Thermal Effect on Rheological Properties of Epoxy Asphalt Mixture and Stress Prediction for Bridge Deck Paving. ASCE’s Journal of Materials in Civil Engineering, 2019, 31(10): 04019222.
  6. Wei Y, Guo W, Zhang Q. A model for predicting evaporation from fresh concrete surface during the plastic stage. Drying Technology, 2019: 1-11.
  7. Wei Y., Guo W., Liang S., Chloride ingress in internally cured concrete under complex solution, ASCE’s Journal of Materials in Civil Engineering, 2018, 30 (4): 04018037-1-10.
  8. Wei Y, Guo W, Liang S. Microprestress-solidification theory-based tensile creep modeling of early-age concrete: Considering temperature and relative humidity effects. Construction and Building Materials, 2016, 127: 618-626.
  9. Wei Y, Guo W, Zheng X. Integrated shrinkage, relative humidity, strength development, and cracking potential of internally cured concrete exposed to different drying conditions. Drying Technology, 2016, 34(7): 741-752.
  10. Wei Y., Liang S., Guo W. Hansen, W., Stress prediction in very early-age concrete subject to restraint under varying temperature histories, Cement and Concrete Composites, 2017, (83), 45-56.
  11. Wei Y, Liang S, Guo W. Decoupling of autogenous shrinkage and tensile creep strain in high strength concrete at early ages. Experimental Mechanics, 2017: 1-11.
  12. Liang S, Guo W, Wei Y. Stress prediction in very early-age concrete subject to temperature variation. JCI-RILEM International Workshop on “Control of Cracking of Mass Concrete and Related Issues Concerning Early Age Cracking of Concrete Structures” (CONCRACK5), April 24-26, 2017.
  13. 郭为强, 魏亚. 基于微预应力-固结理论的早龄期混凝土高温拉伸徐变试验与模拟. 工程力学, 2017, 34(3): 197-203.
  14. 郭为强, 魏亚. 水泥混凝土路面板硬化过程中温度分布实测与模拟. 公路交通科技, 2015, 32(2): 33-40.
  15. 郭为强, 王坤林, 魏亚. 内养护混凝土复合溶液下的耐酸腐蚀性能. 混凝土, 2016.
  16. 魏亚, 郑小波, 郭为强. 干燥环境下内养护混凝土收缩, 强度及开裂性. 建筑材料学报, 2016, 19(5): 902-908.
  17. 魏亚, 梁思明, 郭为强. 基于水化度和约束状态下拉伸徐变特征的早龄期混凝土内应力预测. 建筑结构学报, 2016, 37(10): 162-168.
  18. 袁英杰, 郭为强, 王坤林, 魏亚. 预湿轻细骨料内养护混凝土微观结构与渗透性能. 公路交通科技, 2019, 36(1): 22-30.
  19. 黄达, 魏亚, 郭为强, 汪林兵. 考虑介损的压电陶瓷开路输出电压研究. 压电与声光. 2020(01).
  20. 魏亚, 黄斌, 郭为强. 一种水泥基材料压缩徐变测试装置. 中国专利: CN105784491A, 2016-07-20.

英文 English

Education: Ph.D. candidate
Major: Civil Engineering
Degree: Doctor of Engineering
Research Direction: creep and mechanical properties of cement-based materials
Email: 15201342510@163.com

Experience

2021.9-            Tsinghua University, Department of civil engineering, Doctor
2014.9-2017.6 Tsinghua University, Department of civil engineering, Master
2010.9-2014.6 Beijing Jiaotong University, Civil Engineering College, Bachelor

Honors

“Friends of Tsinghua” Shanxi Jiawei Master Scholarship (2014)
China Harbour First class scholarship (2015)

Achievements in scientific research

  1. Guo W, Huang X, Zhao L, et al. Transverse Cracking of Concrete Base Plate in CRTS III Ballastless Track Structure: Effects of Environmental Boundary Conditions. Applied Sciences, 2021, 11(21): 10400.
  2. Liu Y, Wei, Y, Guo W. Effect of filler size and shape on the properties of ultra-high performance concrete. ASCE Journal of Materials in Civil Engineering, 33, No.5 (2021).
  3. Wei Y, Guo W, Wu Z, Gao X, Computed permeability for cement paste subject to freeze-thaw cycles at early ages, Construction and Building Materials, 2020, 224, 118298.
  4. Huang, W., Guo, W., Wei, Y. Prediction of paving performance for epoxy asphalt mixture by its time and time-dependent properties, ASCE’s Journal of Materials in Civil Engineering, 2020, 32(3):04020017-1-12.
  5. Huang W, Guo W, Wei Y. Thermal Effect on Rheological Properties of Epoxy Asphalt Mixture and Stress Prediction for Bridge Deck Paving. ASCE’s Journal of Materials in Civil Engineering, 2019, 31(10): 04019222.
  6. Wei Y, Guo W, Zhang Q. A model for predicting evaporation from fresh concrete surface during the plastic stage. Drying Technology, 2019: 1-11.
  7. Wei Y., Guo W., Liang S., Chloride ingress in internally cured concrete under complex solution, ASCE’s Journal of Materials in Civil Engineering, 2018, 30 (4): 04018037-1-10.
  8. Wei Y, Guo W, Liang S. Microprestress-solidification theory-based tensile creep modeling of early-age concrete: Considering temperature and relative humidity effects. Construction and Building Materials, 2016, 127: 618-626.
  9. Wei Y, Guo W, Zheng X. Integrated shrinkage, relative humidity, strength development, and cracking potential of internally cured concrete exposed to different drying conditions. Drying Technology, 2016, 34(7): 741-752.
  10. Wei Y., Liang S., Guo W. Hansen, W., Stress prediction in very early-age concrete subject to restraint under varying temperature histories, Cement and Concrete Composites, 2017, (83), 45-56.
  11. Wei Y, Liang S, Guo W. Decoupling of autogenous shrinkage and tensile creep strain in high strength concrete at early ages. Experimental Mechanics, 2017: 1-11.
  12. Liang S, Guo W, Wei Y. Stress prediction in very early-age concrete subject to temperature variation. JCI-RILEM International Workshop on “Control of Cracking of Mass Concrete and Related Issues Concerning Early Age Cracking of Concrete Structures” (CONCRACK5), April 24-26, 2017.
  13. 郭为强, 魏亚. 基于微预应力-固结理论的早龄期混凝土高温拉伸徐变试验与模拟. 工程力学, 2017, 34(3): 197-203.
  14. 郭为强, 魏亚. 水泥混凝土路面板硬化过程中温度分布实测与模拟. 公路交通科技, 2015, 32(2): 33-40.
  15. 郭为强, 王坤林, 魏亚. 内养护混凝土复合溶液下的耐酸腐蚀性能. 混凝土, 2016.
  16. 魏亚, 郑小波, 郭为强. 干燥环境下内养护混凝土收缩, 强度及开裂性. 建筑材料学报, 2016, 19(5): 902-908.
  17. 魏亚, 梁思明, 郭为强. 基于水化度和约束状态下拉伸徐变特征的早龄期混凝土内应力预测. 建筑结构学报, 2016, 37(10): 162-168.
  18. 袁英杰, 郭为强, 王坤林, 魏亚. 预湿轻细骨料内养护混凝土微观结构与渗透性能. 公路交通科技, 2019, 36(1): 22-30.
  19. 黄达, 魏亚, 郭为强, 汪林兵. 考虑介损的压电陶瓷开路输出电压研究. 压电与声光. 2020(01).
  20. 魏亚, 黄斌, 郭为强. 一种水泥基材料压缩徐变测试装置. 中国专利: CN105784491A, 2016-07-20.