吴静，博士，教授，硕士生导师。2010年12月于武汉理工大学材料学院获得博士学位，美国西北大学、密歇根大学访问学者，湖北省杰出青年科学基金获得者，入选湖北省青年科技“晨光计划”。2022年荣获武汉纺织大学本科教学质量一等奖，被评为纺大“最美教师”、“科研标兵”。作为项目负责人主持承担了国家自然科学基金2项、湖北省自然科学重点项目（杰青）1项、湖北省重点研发项目1项、湖北省重大创新专项子课题1项；获中国专利奖优秀奖1项。参与了包括地铁、桥梁、隧道、军用和民用建筑等工程混凝土材料设计与施工技术攻关。以通讯作者或第一作者在Advanced Science、Cement and Concrete Composites、Chemical Engineering Journal、Construction Building Materials、Journal of Building Engineering、Materials and Design、Journal of Sustainable Cement-Based Materials等权威期刊发表高水平论文30余篇；获授权发明专利30余项。

E-mail：wujing313@wtu.edu.cn

研究领域：

[1] 先进水泥基复合材料、功能建筑材料、低碳胶凝材料

[2] 纤维混凝土、UHPC

[3] 纤维及织物在混凝土工程中的应用

主持项目：

[1] 温缩型纤维在大体积混凝土中的热收缩效应与抗裂增强机理研究，2021.1-2024.12，国家自然科学基金面上项目

[2] 基于界面应变协同效应的微丝钢纤维提升海工混凝土性能的机理研究，2024.3-2026.3，湖北省自然科学基金重点项目

[3] 基于温缩型纤维的高抗裂混凝土材料开发及在桥梁中应用，2021.1-2022.12，湖北省重大专项研发计划

[4] 热缩型纤维对混凝土预应力的施加机制及其阻裂增韧机理研究，2021.1-2023.12，湖北省自然科学基金面上项目

[5] 轻质超高性能混凝土开发及其在预制拼装桥梁工程中应用，2018/01-2020/12，湖北省技术创新重大项目子课题

[6] 亲水/亚微级纤维诱导调控水泥浆体微结构形成机理研究，2014.1-2016.12，国家自然科学青年基金项目

[7] 船闸大体积混凝土温度裂缝控制技术开发，2023.1-2024.12，企业委托项目

论文：

[1] Wu Haiping, Huang Jiaqi, Qu Zhengyao, Zheng Xueling, Tan Sirui, Du Wei, Cai Guangming, Zhao Zhong*, Wu Jing*, Li Daiqi*. Popcorn Effect-inspired Self-propagating Formation of High-conductivity Cement Composite for Multifunctional Applications, ADVANCED SCIENCE, 2024, 2024(2411290): 1-10

[2] Wu Haiping, Li Daiqi*, Yang Wen, Wang Shizhe, Wang Wei, Zhu Zhibo, Tan Sirui, Wu jing*, Ding Qingjun. Construction of new conductive networks for expandable graphite-based cement composites via a facile heat treatment process[J]. Cement and Concrete Composites, 2023, 141: 105142.

[3] Haiping Wu, Daiqi Li*, Zhong Zhao, Sirui Tan, Maolin Wang, Qun Ma, Jing Wu*, Guangming Cai*. Smart Cement for Fire Alarms and Indoor Climate Control [J]. Chemical Engineering Journal, 2024, 482: 148298.

[4] Wang S, Wu H, Yang W, Wang Wei, Zhu Zhibo, Nie Kun, Wang Luoxin, Wang Hua, Wu jing*. Development of photothermal-heat storage concrete incorporating super absorbent polymer[J]. Construction and Building Materials, 2024, 411: 134269.

[5] Wang Wei, Wu Jing*, Yang Wen, Wang Shizhe, Wu Haiping, Zhibo Zhu, LuoxinWang*, Qingjun Ding*, Hua Wang, Xiangming Zhou. Towards low-temperature shrinkable synthetic fibers for internally self-prestressing concrete[J]. Journal of Building Engineering, 2023, 73: 106769.

[6] Jing Wu*, Qingjun Ding, Wen Yang, Hua Wang, Luoxin Wang. Influence of Submicron Fibrillated Cellulose Fibers from Cotton on Hydration and Microstructure of Portland Cement Paste, Molecules, 2021, 26, 5831.

[7] Haiping Wu, Sirui Tan*, Xueling Zheng, Zhong Zhao, Maolin Wang, Qun Ma, Jing Wu*, Daiqi Li*. Fabrication of carbon fiber/cement composites with controllable precise patterned structures via facile computerized embroidery [J]. Materials & Design, 2024, 242: 113017.

[8] Shizhe Wang, Jing Wu*, Zhixian Wang, Haiping Wu, et al. Research on water evaporation efficiency of porous cement-based photothermal conversion materials[J]. Journal of Sustainable Cement-Based Materials, 2022, 12(9):1073-1080.

[9] Guobin Zhu, Cong Jin, Huyang Li, Meijun Chen, Shichang Xia, Mingjun Han, Jing Xu*, Shiwen Yang*, Jing Wu*, Luoxin Wang, Chunzu Cheng, Construction of strengthened crosslinked polymer coating using liquid-like nanoparticle on polyphenylene sulfide nonwoven as separator: Improved cycling performance in lithium-ion battery, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 691 (2024):133856,

[10] Wu Jing, Wu Xiong, Ma Jianfeng, Gao Da, Luo Yaoling, Effect of hydrogel microcapsule on shrinkage and mechanical properties of cement mortars, MAGAZINE OF CONCRETE RESEARCH, 2022, 74(16): 810-820.

[11] Ruina Liu*, Junshuai Mei, Lipei Ren, Jing Wu*, Chenggen Zhang, Zheng Li, Yanhong Lu, Shujun Wang, Cement-based composites with ZIF-8@TiO2-coated activated carbon fiber for efficient removal of formaldehyde, Science and Engineering of Composite Materials,2024, 31: 20220243.

[12] YOU Song, WU Jing*, WANG Shizhe, WANG Wei, LI Qiong, ZAHNG Ganggang, DING Qinjun, WANG Luoxin, Copper Ions Removal from Wastewater by Electrocoagulation Using Cement-based Cathode Plates, Journal of Wuhan University of Technology-Mater. Sci. Ed. 2023.4: 387-393.