代表性 科研成果 |
近年来,共主持国家自然科学基金项目4项,主持中国博士后科学基金面上项目和特别资助项目、河南省杰出青年科学基金、河南省高校科技创新团队项目、河南省高校创新人才计划项目、河南省青年骨干教师项目、河南省科技攻关项目等其它各类省部级以上科研项目近20项,发表高水平学术论文200余篇,其中第一或通讯作者SCI论文110篇(包括中科院一区期刊论文31篇),SCI被引2500余次,ESI热点和高被引论文12篇,出版学术专著7部,授权国家发明专利17项,相关研究成果获得省部级科技进步奖5项、河南省自然学术论文奖10项。 一、代表性科研项目 (1) 国家自然科学基金面上项目,52278283,混杂纤维和纳米粒子增强地聚合物再生混凝土徐变特性及预测模型研究,54万元,在研,主持。 (2) 国家自然科学基金面上项目,51979251,湿热盐及荷载耦合作用下纤维和纳米粒子增强地聚合物混凝土力学行为及损伤机理研究,60万元,在研,主持。 (3) 国家自然科学基金面上项目,51678534,纳米粒子和纤维协同改性地聚合物砂浆流变与粘结特性及力学行为,62万元,已结题,主持。 (4) 国家自然科学基金青年项目,51208472,基于纳米粒子的PVA纤维水泥基复合材料力学性能及耐久性能研究,25万元,已结题,主持。 (5) 河南省杰出青年科学基金项目,212300410018,环境耦合作用下地聚合物绿色水工混凝土力学特性及破坏机理研究,50万元,在研,主持。 (6) 河南省高校科技创新团队支持计划项目,20IRTSTHN009,新型绿色水工材料与结构,100万元,在研,主持。 (7) 河南省高校科技创新人才计划项目,16HASTIT012,基于环境耦合作用的纳米增强PVA纤维水泥基复合材料耐久性研究,60万元,已结题,主持。 (8) 中国博士后科学基金特别资助项目,2012T50603,纳米颗粒PVA纤维水泥基复合材料断裂韧性及耐久性研究,15万元,已结题,主持。 (9) 中国博士后科学基金面上项目,20110491007,掺纳米SiO2颗粒高性能混凝土阻裂增韧机理研究,3万元,已结题,主持。 (10) 郑州大学优秀青年发展基金项目,51099043,纳米粒子与玄武岩纤维对高性能混凝土阻裂增韧耦合作用机理研究,30万元,已结题,主持。 二、代表性论著 (1) 代表性论文 [1] Peng Zhang, Xu Han*, Shaowei Hu, Juan Wang, Tingya Wang. High-temperature behavior of polyvinyl alcohol fiber-reinforced metakaolin/fly ash-based geopolymer mortar, Composites Part B - Engineering, 2022, 244, Article ID: 110171. (中科院一区,ESI热点论文,ESI高被引论文) [2] Peng Zhang, Zhen Gao*, Juan Wang, Jinjun Guo, Tingya Wang. Influencing factors analysis and optimized prediction model for rheology and flowability of nano-SiO2 and PVA fiber reinforced alkali-activated composites, Journal of Cleaner Production, 2022, 366, Article ID:132988. (中科院一区,ESI热点论文,ESI高被引论文) [3] Peng Zhang, Zhen Gao*, Juan Wang*, Jinjun Guo, Shaowei Hu, Yifeng Ling. Properties of fresh and hardened fly ash/slag based geopolymer concrete: A review, Journal of Cleaner Production, 2020, 270, Article ID:122389. (中科院一区,ESI热点论文,ESI高被引论文) [4] Peng Zhang, Luoyi Kang, Yuanxun Zheng*, Tianhang Zhang, Biao Zhang. Influence of SiO2 /Na2O molar ratio on mechanical properties and durability of metakaolin-fly ash blend alkali-activated sustainable mortar incorporating manufactured sand, Journal of Materials Research and Technology, 2022, 18: 3553-3563. (中科院一区,ESI高被引论文) [5] Peng Zhang, Kexun Wang*, Juan Wang, Jinjun Guo*, Yifeng Ling. Macroscopic and microscopic analyses on mechanical performance of metakaolin/flyash based geopolymer mortar, Journal of Cleaner Production, 2021, 294, Article ID: 126193. (中科院一区,ESI高被引论文) [6] Peng Zhang, Zhen Gao*, Juan Wang*, Kexun Wang. Numerical modeling of rebar-matrix bond behaviors of nano-SiO2 and PVA fiber reinforced geopolymer composites, Ceramics International, 2021, 47(8): 11727–11737. (中科院一区,ESI高被引论文) [7] Peng Zhang, Kexun Wang*, Qingfu Li*, Juan Wang, Yifeng Ling. Fabrication and engineering properties of concretes based on geopolymers/alkali-activated binders - A review, Journal of Cleaner Production, 2020, 258, Article ID: 120896. (中科院一区,ESI高被引论文) [8] Peng Zhang, Kexun Wang*, Juan Wang*, Jinjun Guo, Shaowei Hu, Yifeng Ling. Mechanical properties and prediction of fracture parameters of geopolymer/alkali-activated mortar modified with PVA fiber and nano-SiO2, Ceramics International, 2020, 46 (12): 20027-20037. (中科院一区,ESI高被引论文) [9] Chengcheng Wen, Peng Zhang*, Juan Wang, Shaowei Hu. Influence of fibers on the mechanical properties and durability of ultra-high-performance concrete: A review, Journal of Building Engineering, 2022, 52, ID: 104370. (ESI热点论文,ESI高被引论文) [10] Peng Zhang, Shiyao Wei, Yuanxun Zheng, Fei Wang*, Shaowei Hu. Effect of single and synergistic reinforcement of PVA fiber and nano-SiO2 on workability and compressive strength of geopolymer composites, Polymers, 2022, 14(18), ID: 3765. (ESI热点论文) [11] Xuemei Zhang, Peng Zhang*, Tingya Wang, Ying Zheng, Linhong Qiu, Siwen Sun. Compressive strength and anti-chloride ion penetration assessment of geopolymer mortar merging PVA fiber and nano-SiO2 using RBF–BP composite neural network, Nanotechnology Reviews, 2022, 11(1): 1181-1192. (ESI高被引论文) [12] Qiaoyi Han, Peng Zhang*, Jingjiang Wu, Yuting Jing, Deng Zhang, Tianhang Zhang. Comprehensive review of the properties of fly ash-based geopolymer with additive of nano-SiO2, Nanotechnology Reviews, 2022, 11(1): 1478-1498. (ESI高被引论文) [13] Peng Zhang, Jia Su*, Jinjun Guo, Shaowei Hu. Influence of carbon nanotube on properties of concrete: A review, Construction and Building Materials, 2023, 369, ID: 130338. (中科院一区) [14] Peng Zhang, Xu Han*, Jinjun Guo, Shaowei Hu. High-temperature behavior of geopolymer mortar containing nano-silica, Construction and Building Materials, 2023, 364, ID: 129983. (中科院一区) [15] Yuanxun Zheng, Yu Zhang*, Jingbo Zhuo, Peng Zhang*, Shaowei Hu. Mesoscale synergistic effect mechanism of aggregate grading and specimen size on compressive strength of concrete with large aggregate size, Construction and Building Materials, 2023, 367, ID: 130346. (中科院一区) [16] Peng Zhang, Xu Han*, Jinjun Guo, Hongsen Zhang. Fractal characteristics of geopolymer mortar containing municipal solid waste incineration fly ash and its correlations to pore structure and strength, Fractal and Fractional, 2022, 6(11), ID: 676. (中科院一区) [17] Peng Zhang, Qiaoyi Han*, Jingjiang Wu, Yong Zhang, Mechanical properties of nano-SiO2 reinforced engineered cementitious composites after exposure to high temperatures, Construction and Building Materials, 2022, 356, ID: 129123. (中科院一区) [18] Peng Zhang, Wenshuai Wang, Yajun Lv, Kexun Wang*, Siyuan Dai. Effect of polymer coatings on the freezing–thawing and carbonation resistances of nano-SiO2 and polyvinyl alcohol fiber-reinforced cementitious composites, Journal of Materials Research and Technology, 2022, 21: 69-83. (中科院一区) [19] Yuanxun Zheng, Jingbo Zhuo, Peng Zhang*, Mei Ma. Mechanical properties and meso-microscopic mechanism of basalt fiber-reinforced recycled aggregate concrete, Journal of Cleaner Production, 2022, 370, Article ID:133555. (中科院一区) [20] Zhen Gao, Peng Zhang*, Juan Wang, Kexun Wang, Tianhang Zhang. Interfacial properties of geopolymer mortar and concrete substrate: Effect of polyvinyl alcohol fiber and nano-SiO2 contents, Construction and Building Materials, 2022, 315, ID:125735. (中科院一区) [21] Yuanxun Zheng, Yahui Zhang, Peng Zhang*. Methods for improving the durability of recycled aggregate concrete: A review, Journal of Materials Research and Technology, 2021, 15: 6367-6386. (中科院一区) [22] Kexun Wang, Peng Zhang*, Jinjun Guo, Zhen Gao. Single and synergistic enhancement on durability of geopolymer mortar by polyvinyl alcohol fiber and nano-SiO2, Journal of Materials Research and Technology, 2021, 15: 1801-1814. (中科院一区) [23] Zhen Gao, Peng Zhang*, Jinjun Guo, Kexun Wang. Bonding behavior of concrete matrix and alkali-activated mortar incorporating nano-SiO2 and polyvinyl alcohol fiber: Theoretical analysis and prediction model, Ceramics International, 2021, 47(22): 31638-31649. (中科院一区) [24] Yuanxun Zheng, Jingbo Zhuo, Peng Zhang*. A review on durability of nano-SiO2 and basalt fiber modified recycled aggregate concrete, Construction and Building Materials, 2021, 304, ID:124659. (中科院一区) [25] Peng Zhang, Peng Yuan, Junfeng Guan*, Xianhua Yao, Lielie Li. Statistical analysis of three-point-bending fracture failure of mortar, Construction and Building Materials, 2021, 300, ID: 123883. (中科院一区) [26] Peng Zhang, Zhen Gao, Yan Shi*, Yuqiang Lin, Jiazheng Li. Effect of large broken stone content on properties of roller compacted concrete based on fractal theory, Construction and Building Materials, 2020, 262, ID: 120821. (中科院一区) [27] Juan Wang, Zhenxiang Guo, Peng Zhang*, Qun Yuan, Qiaoyan Guan. Fracture properties of rubberized concrete under different temperature and humidity conditions based on digital image correlation technique, Journal of Cleaner Production, 2020, 276, Article ID:124106. (中科院一区) [28] Jinjun Guo, Shiwei Zhang, Ting Guo, Peng Zhang*. Effects of UEA and MgO expansive agents on fracture properties of concrete, Construction and Building Materials, 2020, 263, ID: 120245. (中科院一区) [29] Juan Wang, Zhenxiang Guo, Qun Yuan*, Peng Zhang*, Hongyuan Fang. Effects of ages on the ITZ microstructure of crumb rubber concrete, Construction and Building Materials, 2020, 254, ID: 119329. (中科院一区) [30] Yifeng Ling, Peng Zhang*, Juan Wang, Yuanzhao Chen. Effect of PVA fiber on mechanical properties of cementitious composite with and without nano-SiO2, Construction and Building Materials, 2019, 229, ID: 117068. (中科院一区) [31] Peng Zhang, Yuanxun Zheng*, Kejin Wang, Jinping Zhang. A review on properties of fresh and hardened geopolymer mortar, Composites Part B - Engineering, 2018, 152: 79-95. (中科院一区) [32] Peng Zhang*, Jinyi Wan, Kejin Wang, Qingfu Li. Influence of nano-SiO2 on properties of fresh and hardened high performance concrete: A state-of-the-art review, Construction and Building Materials, 2017, 148: 648-658. (中科院一区) [33] Yuanxun Zheng, Peng Zhang*, Yingchun Cai, Zuquan Jin, Ehsan Moshtagh. Cracking resistance and mechanical properties of basalt fibers reinforced cement-stabilized macadam, Composites Part B - Engineering, 2019, 165: 312-334. (中科院一区) [34] Peng Zhang*, Qing-fu Li. Effect of polypropylene fiber on durability of concrete composite containing fly ash and silica fume, Composites Part B-Engineering, 2013, 45: 1587-1594. (中科院一区) [35] Peng Zhang*, Chen-hui Liu, Qing-fu Li, Tian-hang Zhang. Effect of polypropylene fiber on fracture properties of cement treated crushed rock, Composites Part B-Engineering, 2013, 55: 48-54. (中科院一区) (2) 代表性专著 [1] 张鹏. 纳米粒子和PVA纤维增强水泥基复合材料力学性能及耐久性,黄河水利出版社,ISBN: 978-7-5509-3262-3, 2022年3月. [2] 张鹏. 纳米粒子和钢纤维增强混凝土耐久性与抗冲击性能研究,黄河水利出版社,ISBN: 978-7-5509-3119-0,12.2万字,2021年12月. [3] Peng Zhang, Qingfu Li, Yuanxun Zheng, Juan Wang, Meiju Jiao. Properties of polypropylene fiber reinforced high performance concrete (HPC) containing silica fume and fly ash, Sara Book Publication, ISBN: 978-93-88672-09-2, 2019年3月. [4] 张鹏,李清富. 纤维增强纳米高性能混凝土力学性能研究,黄河水利出版社,ISBN978-7-5509-1068-3, 2015年3月. [5] 李清富,张鹏,刘晨辉. 聚丙烯纤维半刚性基层抗裂性能研究,黄河水利出版社,ISBN 978-7-80734-847-4, 2010年7月. 三、代表性科技奖励 (1) 环境友好型水泥基复合材料改性及结构性能提升关键技术与应用,教育部高等学校科技进步二等奖,2023,第1名; (2) 水工混凝土界面破坏机理与加固修复技术,黄河水利委员会科技进步一等奖,2022,第3名; (3) 新型水泥基复合材料性能提升关键技术及应用研究,河南省科技进步三等奖,2018,第1名; (4) 基于纳米粒子的纤维增强高性能混凝土材料性能与应用技术研究,河南省科技进步三等奖,2014,第2名; (5) 大型在役桥梁结构健康诊断与寿命预测技术研究,河南省科技进步三等奖,2011,第5名; (6) 高等级公路半刚性基层材料的防裂性能研究,河南省科技进步三等奖,2010,第5名; (7) 混凝土结构修复加固材料绿色化及性能提升关键技术与应用,河南省教育厅科技成果一等奖,2021,第1名; (8) 绿色高性能水工混凝土制备关键技术及应用,河南省教育厅科技成果一等奖,2020,第1名. 四、代表性发明专利 (1) 一种高韧性混杂纤维增强混凝土及其制备方法,专利号:ZL. 201610645446.9,第1; (2) 一种水泥基复合材料及其制备方法,专利号:ZL. 201610650176.0,第1; (3) 一种高流变性地聚合物砂浆及其制备方法, 专利号:ZL. 202010615293.X,第1; (4) 一种耐高温地聚合物砂浆及其制备方法,专利号:ZL. 202010618375.X,第1; (5) 一种强耐久性涂层防护水泥基复合材料及制备方法和应用,专利号:202110618610.8,第1; (6) 一种耐高温水泥基复合材料及其制备方法,专利号:ZL. 202110618379.2,第1; (7) 钢筋与纳米SiO2和PVA纤维增强地聚合物砂浆间的粘结滑移模型,专利号:ZL. 201910198011.8,第1; (8) 一种垃圾焚烧飞灰地聚物复合材料的制备方法,专利号:ZL.202210549565.X,第1; (9) 一种基于量子粒子群的水泥基复合材料断裂性能预测方法,专利号:ZL. 202110618275.1,第1; (10) 一种地聚合物砂浆与混凝土界面粘结性能的评估方法,专利号:ZL. 202110555336.4,第1. |