張白�����,男��,湖南寧鄉(xiāng)人�,工學博士,碩士生導師�,主要從事FRP增強地聚物基海工混凝土及有限元仿真分析等方面的研究;截止2025年2月�����,已發(fā)表SCI/EI論文63篇���,其中一作/通訊SCI論文32篇(JCR Q1 28篇�,綜述4篇),ESI高被引論文6篇��;論文累計被引1600余次(谷歌學術(shù))����,單篇最高被引161次,H指數(shù)達25�;主持省/市/廳等科研項目7項;獲“江蘇省優(yōu)秀博士學位論文”���、“江蘇省高等學校土木工程學科優(yōu)秀博士學位論文”和“中國公路學會科學技術(shù)一等獎”等獎勵���;擔任國際期刊Discover Civil Engineering、Discover Concrete and Cement編委���,Buildings����、Metals客座編輯以及Compos. Part B-Eng.���、Cem. Concr. Compos.�、Sustain. Mater. Techno.、Eng. Struct.等28個SCI期刊審稿人��。
Email: baizhang1120@csust.edu.cn
招生意向:歡迎為人誠懇���、學習勤奮����、積極上進的碩士研究生加入��。
一��、教育背景
[1] 2018/09-2022/09���,東南大學,土木工程����,博士
[2] 2021/01-2022/01,新加坡國立大學�����,建筑系��,聯(lián)合培養(yǎng)
[3] 2015/09-2018/06��,湘潭大學,結(jié)構(gòu)工程�,碩士
[4] 2011/09-2015/06,湖南工學院�,土木工程,學士
二�、研究興趣
[1] FRP增強地聚物基海水海砂/珊瑚骨料混凝土結(jié)構(gòu)耐久性
[2] 高性能堿激發(fā)膠凝材料與功能化地聚物基低碳混凝土
[3] 高延性纖維增強地聚物基復合材料(EGC)
[4] 固廢處理與資源化利用
[5] 細觀模擬與機器學習
三、科研項目
[1] 湖南省自然科學基金青年基金項目�����,2024JJ6054�,2024/01-2026/12,主持
[2] 長沙市自然科學基金項目���,kq2402026�,2024/01-2025/12����,主持
[3] 湖南省教育廳優(yōu)秀青年基金項目,23B0307���,2023/09-2025/08�,主持
[4] 極端環(huán)境綠色長壽道路工程全國重點實驗室開放基金項目,kfj230111���,2023/09-2025/08���,主持
[5] 長沙理工大學土木工程重點學科創(chuàng)新性項目,23ZDXK17���,2023/04-2025/12��,主持
[6] 東南大學優(yōu)秀博士學位論文培育基金項目,YBPY2020����,2020/07-2022/06,主持
[7] 江蘇省研究生科研創(chuàng)新計劃項目���,KYCX20_0113�,2020/07-2022/06���,主持
四����、一作/通訊論文
[1] Zhang Bai, Zhu Hong*, Yang Zhiyuan, et al. BFRP bars reinforced geopolymer-based coral aggregate concrete beams with sustainable and high seawater erosion resistance: Flexural durability, economic, and ecological analysis. Engineering Structures, 2025, 330:119910.
[2] Zhang Bai, Wang Qiang, Zhu Hong*, Yang Zhiyuan, Peng Hui*. Behavior of BFRP-confined geopolymer-based coral aggregate concrete columns under axial compression: Effects of specimen sizes. Journal of Building Engineering, 2024, 98:111106.
[3] Zhang Bai, Yang Zhiyuan, Jiang Xuanang, Zhu Hong*, Wang Wei, Dong Yao-Rong, Peng Hui*. Flexural behavior of coral aggregate concrete beams reinforced with BFRP bars under seawater corrosion environments. Construction and Building Materials, 2024, 447:138091.
[4] Zhang Bai, Xu Feng, Zhu Hong*, Yang Zhiyuan, Peng Hui*. Deterioration of bond performance between BFRP bars and coral aggregate concrete incorporating slag-based geopolymers under seawater corrosion environments. Construction and Building Materials, 2024, 411:134518.
[5] Zhang Bai, Zhu Hong*, You Chunhua, Yang Zhiyuan, Liu Jianhua, Peng Hui*. Flexural durability of BFRP bars reinforced geopolymer-based coral aggregate concrete beams conditioned in marine environments. Journal of Building Engineering, 2024, 79:109959.
[6] Zhang Bai, Zhu Hong*, Xiong Tong, Peng Hui*. Flexural behavior of FRP bars reinforced seawater coral aggregate concrete beams incorporating alkali-activated materials. Materials and Structures, 2024, 57:26.
[7] Zhang Bai*. Durability of low-carbon geopolymer concrete: A critical review. Sustainable Materials and Technologies, 2024, 40:e00882. (ESI高被引論文)
[8] Chen Jun, Zhao Siqi, Zhang Yi, Tan Xinyang, Zhang Bai*(通訊). Axial compressive performance of composite cylinder wall members in steel-concrete towers designed for wind turbines. Journal of Constructional Steel Research, 2024, 221:108908.
[9] Lv Yigang, Pan Bei, Han Weiwei*, Qiao Jie, Zhang Bai*(通訊), Zhang Jinghang, Peng Hui. Carbonation resistance of fly ash-metakaolin-based geopolymer pastes regulated by slag and carbide slag. Journal of Sustainable Cement-based Materials, 2024, 13:1538-1551.
[10] Qiao Jie, Lv Yigang*, Peng Hui, Han Weiwei, Pan Bei, Zhang Bai*(通訊). Performance and characterization of fly ash-metakaolin-based geopolymer pastes. Materials Today Communications, 2024, 41:110293.
[11] Lv Yigang, He Xianliang, Han Weiwei*, Su Miao, Zhang Bai*(通訊), Zhang Jinghang, Peng Hui. Interfacial bond-slip of horizontally embedded CFRP strips and concrete considering the effect of the groove depth-to-width ratio. Journal of Building Engineering, 2024, 96:110515.
[12] Zhang Bai, Zhu Hong*. 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. (ESI高被引論文)
[13] Zhang Bai*, Peng Hui, Xiong Tong, Zhu Hong*. Towards enhancing the durability of seawater coral aggregate concrete under drying-wetting cycles with slag-based geopolymers. Journal of Sustainable Cement-Based Materials, 2023, 13:389-401.
[14] Zhang Bai*, Wang Wei, Yang Zhiyuan, Zhu Hong*. Understanding the bond performance between BFRP bars and alkali-activated seawater coral aggregate concrete under marine environments. Engineering Structures, 2023, 288:116228.
[15] Zhang Bai*, Zhu Hong*, Dong Zhiqiang, Yang Zhiyuan. Mechanical properties and durability of FRP-reinforced coral aggregate concrete structures: A critical review. Materials Today Communications, 2023, 35:105656. (ESI高被引論文)
[16] Zhang Bai, Zhu Hong*, Chen Jun*. Bond durability between BFRP bars and seawater coral aggregate concrete under seawater corrosion environments. Construction and Building Materials, 2023, 379:131274.
[17] Zhang Bai, Zhu Hong*. Durability of seawater coral aggregate concrete under seawater immersion and dry-wet cycles. Journal of Building Engineering, 2023, 66:105894. (ESI高被引論文)
[18] Zhang Bai, Cheng Yuzhu Zhu Hong*. Bond performance between BFRP bars and alkali-activated seawater coral aggregate concrete. Engineering Structures, 2023, 279:115596.
[19] Zhang Bai, Zhu Hong*, Feng Pan, Zhang Pu*. A review on shrinkage-reducing methods and mechanisms of alkali-activated/geopolymer systems: Effects of chemical additives. Journal of Building Engineering, 2022, 49:104056. (入選ESI高被引15次,谷歌學術(shù)引用143次)
[20] Zhang Bai, Li Fangzheng, Zhu Hong*, Dong Zhiqiang, Yang Zhiyuan, Chen Jun*. Basalt FRP-confined slag-based alkali-activated seawater coral aggregate concrete columns: Concept and axial stress-strain behavior. Engineering Structures, 2022, 273:114890.
[21] Zhang Bai, Zhu Hong*, Cao Ruiming. Mechanical properties and drying shrinkage of alkali-activated seawater coral aggregate concrete. Journal of Sustainable Cement-based Materials, 2022, 11:408-417.
[22] Zhang Bai, Zhu Hong*, Dong Zhiqiang, Wang Qiang. 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. (ESI高被引論文�����,入選6次)
[23] Zhang Bai, Zhu Hong*, Cheng Yuzhu, Huseien Ghasan Fahim, Shah Kwok Wei*. Shrinkage mechanisms and shrinkage-mitigating strategies of alkali-activated slag composites: A critical review. Construction and Building Materials, 2022, 318:125993. (谷歌學術(shù)引用161次)
[24] Zhang Bai, Zhu Hong*, Wang Qiang, Shah Kwok Wei, Wang Wei. Design and properties of seawater coral aggregate alkali-activated concrete. Journal of Sustainable Cement-based Materials, 2022, 11:175-184.
[25] Zhang Bai, Zhu Hong*, Cao Ruiming, Ding Jianming, Chen Xianhua. Feasibility of using geopolymers to investigate the bond behavior of FRP bars in seawater sea-sand concrete. Construction and Building Materials, 2021, 282:122636.
[26] Zhang Bai, Zhu Hong*, Li Fangzheng, Dong Zhiqiang, Zhang Pu. Compressive stress-strain behavior of seawater coral aggregate concrete incorporating eco-efficient alkali-activated slag materials. Construction and Building Materials, 2021, 299:123886.
[27] Zhang Bai, Zhu Hong*, Lu Fei. Fracture properties of slag-based alkali-activated seawater coral aggregate concrete. Theoretical and Applied Fracture Mechanics, 2021, 115:103071.
[28] Zhang Bai, Zhu Hong*, Shah Kwok Wei, Feng Pan, Dong Zhiqiang. Optimization of mix proportion of alkali-activated slag mortars prepared with seawater and coral sand. Construction and Building Materials, 2021, 283:122805.
[29] Zhang Bai, Zhu Hong*, Shah Kwok Wei, Dong Zhiqiang, Wu Jie. Performance evaluation and microstructure characterization of seawater and coral/sea sand alkali-activated mortars. Construction and Building Materials, 2020, 259:120403.
[30] Zhang Bai, Zhu Hong*, Wu Gang, Wang Qiang, Li Ting. Improvement of bond performance between concrete and CFRP bars with optimized additional aluminum ribs anchorage. Construction and Building Materials, 2020, 240:118012.
[31] Zhang Bai, Zhu Hong*, Chen Jun, Yang Qu. Influence of specimen dimensions and reinforcement corrosion on bond performance of steel bars in concrete. Advances in Structural Engineering, 2020, 23:1759-1771.
[32] Zhang Bai, Zhu Hong*, Chen Jun, Yang Ou. Evaluation of bond performance of corroded steel bars in concrete after high temperature exposure. Engineering Structures, 2019, 198:109479.
五����、榮譽&獎勵
[1] 張白(14/15),在役公路橋梁服役性能不中斷交通精準診評與快速提升關(guān)鍵技術(shù)���,中國公路學會科學技術(shù)一等獎�����,2024.
[2] 張白(1/1)��,江蘇省優(yōu)秀博士學位論文���,江蘇省教育廳,2024.
[3] 張白(1/1)����,江蘇省高等學校土木工程學科“呂志濤院士”優(yōu)秀博士學位論文,江蘇省土木建筑學會���,2023.
[4] 張白(1/1)��,博士研究生國家獎學金(學院排名第一)�����,中華人民共和國教育部���,2021.
[5] 張白(1/1)����,東南大學學業(yè)一等獎學金(班級排名第一)�����,東南大學�,2020和2021.
[6] 張白(1/1)��,湘潭市普通高等學校優(yōu)秀畢業(yè)生�����,湘潭市教育局�����,2018.
