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优秀校友:张 白
发布日期:2023年04月14日  点击:

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Ø 张白,男,1991年11月出生,湖南宁乡人,2015年毕业于569vip威尼斯游戏土木工程专业,2022年毕业于东南大学结构工程博士,现任职长沙理工大学土木学院,硕士生导师,主要从事FRP增强地聚物基海工混凝土结构耐久性研究。近五年发表国内外核心期刊论文41篇(SCI 30篇),一作SCI论文19篇 (JCR一区论文19篇),2篇入选ESI,1%高被引论文;担任Composite Part B:Engineering, Construction and Building Materials等12个SCI期刊审稿人;担任SCI期刊Metals(JCR Q2)客座编辑。曾荣获博士研究生国家奖学金东南大学研究生一等学业奖学金(1/39)

 

 

Ø 代表性科研成果:

[1] Zhang B, Zhu H*, Dong ZQ, Wang Q. Enhancement of bond performance of FRP bars with seawater coral aggregate concrete by utilizing eco-efficient slag-based alkali-activated materials. Journal of Composites for Construction-ASCE, 2022, 26(1):04021059. (JCR Q1) (ESI高被引论文)

[2] Zhang B, Zhu H*, Feng P, Zhang P. A review on shrinkage-reducing methods and mechanisms of alkali-activated/geopolymer systems: Effects of chemical additives. Journal of Building Engineering, 2022, 49:104056. (JCR Q1) (ESI高被引论文)

[3] Zhang B*, Zhu H*, Dong ZQ, Yang ZY. Mechanical properties and durability of FRP reinforced coral aggregate concrete structures: A critical review. Materials Today Communications, 2023, 35:105656. (JCR Q2)

[4] Zhang B, Zhu H*, Cheng YZ, Huseien GF, Shah KW*. Shrinkage mechanisms and shrinkage-mitigating strategies of alkali-activated slag composites: A critical review. Construction and Building Materials, 2022, 318:125993. (JCR Q1)

[5] Zhang B, Cheng YZ, Zhu H*. Bond performance between BFRP bars and alkali-activated seawater coral aggregate concrete. Engineering Structures, 2023, 279:115596. (JCR Q1)

[6] Zhang B, Zhu H*, Chen J*. Bond durability between BFRP bars and seawater coral aggregate concrete under seawater corrosion environments. Construction and Building Materials, 2023, 379:131274. (JCR Q1)

[7] Zhang B, Zhu H*. Durability of seawater coral aggregate concrete under seawater immersion and dry-wet cycles. Journal of Building Engineering, 2023, 66:105894. (JCR Q1)

[8] Zhang B, Zhu H*. Compressive stress-strain behavior of slag-based alkali-activated seawater coral aggregate concrete after exposure to seawater environments. Construction and Building Materials. 2023, 367:130294. (JCR Q1)

[9] Zhang B, Zhu H*, Cao RM. Mechanical properties and drying shrinkage of alkali-activated seawater coral aggregate concrete. Journal of Sustainable Cement-based Materials, 2022, 11:408-417. (JCR Q1)

[10] Zhang B, Li FZ, Zhu H*, Yang ZY, Dong ZQ, Chen J*. Basalt FRP-confined slag-based alkali-activated seawater coral aggregate concrete columns: Concept and axial stress-strain behavior. Engineering Structures, 2022, 273:114890. (JCR Q1)

[11] Zhang B, Zhu H*, Wang Q, Shah KW, Wang W. Design and properties of seawater coral aggregate alkali-activated concrete. Journal of Sustainable Cement-based Materials, 2022, 11:175-184. (JCR Q1)

[12] Zhang B, Zhu H*, Li FZ, Dong ZQ, Zhang P. Compressive stress-strain behavior of seawater coral aggregate concrete incorporating eco-efficient alkali-activated slag materials. Construction and Building Materials, 2021, 299:123886. (JCR Q1)

[13] Zhang B, Zhu H*, Lu F. Fracture properties of slag-based alkali-activated seawater coral aggregate concrete. Theoretical and Applied Fracture Mechanics, 2021, 115:103071. (JCR Q1)

[14] Zhang B, Zhu H*, Cao RM, Ding JM, Chen XH. Feasibility of using geopolymers to investigate the bond behavior of FRP bars in seawater sea-sand concrete. Construction and Building Materials, 2021, 282:122636. (JCR Q1)

[15] Zhang B, Zhu H*, Shah KW, Feng P, Dong ZQ. Optimization of mix proportion of alkali-activated slag mortars prepared with seawater and coral sand, Construction and Building Materials, 2021, 283:122805. (JCR Q1)

[16] Zhang B, Zhu H*, Shah KW, Dong ZQ, Wu J. Performance evaluation and microstructure characterization of seawater and coral/sea sand alkali-activated mortars. Construction and Building Materials, 2020, 259:120403. (JCR Q1)

[17] Zhang B, Zhu H*, Wu G, Wang Q, Li T. Improvement of bond performance between concrete and CFRP bars with optimized additional aluminum ribs anchorage. Construction and Building Materials, 2020, 240:118012. (JCR Q1)

[18] Zhang B, Zhu H*, Chen J, Yang Q. Influence of specimen dimensions and reinforcement corrosion on bond performance of steel bars in concrete. Advances in Structural Engineering, 2020, 23:1759-1771. (JCR Q3)

[19] Zhang B, Zhu H*, Chen J, Yang O. Evaluation of bond performance of corroded steel bars in concrete after high temperature exposure. Engineering Structures, 2019, 198:109479. (JCR Q1)

 

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