硕士生导师

当前位置: 首页    硕士生导师    正文

张立卿

发布者:曾向荣发布时间:2021-03-15动态浏览次数:




姓  名:张立卿

职称职务:讲师,结构工程研究所副所长

电子邮箱:zlq@ecjtu.edu.cn

一、个人简介

博士,硕导,河北邢台人。研究方向为:多功能/智能纳米混凝土与结构、绿色混凝土与结构。近年来,参与及主持国家科技支撑计划项目、国基自然科学基金项目、教育部“新世纪优秀人才支持计划”项目、江西省自然科学基金、江西省教育厅科技项目等10余项。合作出版英文专著1部和中文专著1部,撰写出版中、英文书篇章6篇,在领域内重要期刊发表学术论文20余篇(其中4篇入选期刊高被引论文),授权发明专利5项。

二、所属学科及主要研究方向

结构工程:结构健康监测与道路探测、多功能/智能混凝土结构、绿色再生混凝土结构

材料学(混凝土材料):多功能/智能纳米混凝土、绿色再生混凝土

欢迎有志于从事多功能/智能纳米混凝土与结构、绿色混凝土与结构等方向研究生联系推免、报考

三、主要学习、工作经历

学习经历

2008/092012/06  石家庄铁道大学,无机非金属材料工程专业,学士

2012/092018/06  大连理工大学,材料学专业,博士

工作经历

2018/06至今  华东交通大学,土建建筑学院,讲师

四、主要科研项目

[1] 江西省青年科学基金项目,20202BABL214042,静电自组装碳纳米管/氧化钛复合水泥基材料结构功能一体化研究,2021.1-2022.12,在研,主持。

[2] 江西省教育厅一般项目,GJJ180299,碳纳米管混凝土复杂环境下自感知性能研究,2019.1-2020.12,结题,主持。

[3] 国家自然科学基金地区项目,51968021,酸雨环境下高速铁路预应力混凝土梁腐蚀疲劳性能研究,2020.1-2023.12,在研,参与。

[4] 国家自然科学基金海外及港澳学者合作研究基金,51428801,纳米碳材料复合混凝土及其路面结构,2015.1-2016.12结题,参与。

[5] 教育部新世纪优秀人才,NCET-11-0798,多功能/智能材料与结构,2011.1-2014.12,结题,参与。 

[6] 国家自然科学基金面上项目,51178148,自感知碳纳米管水泥基复合材料及其在交通参数和结构参数同步探测中的应用,2011.1-2015.12,结题,参与。

[7] 国家科技支撑计划项目,重要基础设施安全监测控制物联网共性集成技术研究及应用示范,2011BAK02B01,2010.4-2015.6,结题,参与。

五、近期著作与论文

论著

[1] Han B., Zhang L., Ou J.. Smart and Multifunctional Concrete towards Sustainable Infrastructures. Springer. 2017.

[2] 许开成,张立卿,陈梦成. 锂渣在混凝土中再生利用及耐久性研究. 华中科技大学出版社. 2020.

论文

1)期刊论文

[1] Zhang L., Zheng Q., Dong X., Yu X., Wang Y., Han B.*. Tailoring sensing properties of smart cementitious composites based on excluded volume theory and electrostatic self-assembly. Construction and Building Materials. 2020, 265: 119452. (中科院SCI一区)

[2] Zhang L., Li W., Wang Y., Yu X., Han B.*. Multifunctional cement-based materials modified with electrostatic self-assembled CNT/TiO2 composite filler. Construction and Building Materials. 2020, 238: 117787. (中科院SCI一区)

[3] Zhang L., Ding S., Han B.*, Yu X., Ni Y.. Effect of water content on the piezoresistive property of smart cement-based materials with carbon nanotube/nanocarbon black composite filler. Composites Part A: Applied Science and Manufacturing .2019, 119: 8-20. (中科院SCI一区)

[4] Zhang L., Ding S., Li L., Dong S., Wang D., Yu X., Han B.*. Effect of characteristics of assembly unit of CNT/NCB composite fillers on properties of smart cement-based materials [J]. Composites Part A: Applied Science and Manufacturing, 2018, 109303-320. (中科院SCI一区)

[5] Han B.*, Zhang L., Zeng S., Dong S., Yu X., Yang R., Ou J.. Nano-core effect in nano-engineered cementitious composites [J]. Composites Part A: Applied Science and Manufacturing, 2017, 95: 100-109. (中科院SCI一区)

[6] Han B.*, Zhang L., Zhang C., Wang Y., Yu X., Ou J.. Reinforcement effect and mechanism of carbon fibers to mechanical and electrically conductive properties of cement-based materials [J]. Construction and Building Materials, 2016, 125: 479-489. (中科院SCI二区)

[7] Zhang L., Han B.*, Ouyang J., Yu X., Sun S., Ou J.. Multifunctionality of cement based composite with electrostatic self-assembled CNT/NCB composite filler [J]. Archives of Civil and Mechanical Engineering, 2017, 17(2): 354-364. (中科院SCI二区)

[8] Zhang L., Ding S., Dong S., Li Z., Ouyang J., Yu X., Han B.*. Piezoresistivity, mechanisms and model of cement-based materials with CNT/NCB composite fillers [J]. Materials Research Express, 2017, 4(12): 125704.

[9] Zhang L., Ma N., Wang Y., Han B.*, Cui X., Yu X., Ou J.. Study on the reinforcing mechanisms of nano silica to cement-based materials with theoretical calculation and experimental evidence [J]. Journal of Composite Materials, 2016, 50(29): 4135-4146.

[10] Han B.*, Zhang L., Sun S., Yu X., Dong X., Wu T., Ou J.. Electrostatic self-assembly CNT/NCB composite fillers reinforced cement-based materials with multifunctionality [J]. Composites Part A: Applied Science and Manufacturing, 2015,79:103-115. (中科院SCI一区) 

[11] Ding S., Zhang L., Yu X., Han B.*, Ou J.. Nanotechnology in Concrete: Small Things Shape a Great Future[J]. Trends in Civil Engineering and Material Science, 2018, 1(1):1-5.

[12] Han B., Li Z., Zhang L., Zeng S., Yu X., Han B., Ou J.. Reactive powder concrete reinforced with nano SiO2-coated TiO2 [J]. Construction and Building Materials. 2017, 148: 104-112.

[13] Jiang S., Zhou D., Zhang L., Ouyang J., Yu X., Cui X., Han B.*. Comparison of compressive strength and electrical resistivity of cementitious composites with different nano- and micro-fillers [J]. Archives of Civil and Mechanical Engineering. 2018, 18(1): 60-68.

[14] Li H., Ding S, Zhang L., Ouyang J., Han B.*. Rheological behaviors of cement pastes with multi-layer graphene [J]. Construction and Building Materials. 2021, 269: 121327

[15] Li H., Ding S, Zhang L., Ouyang J., Han B.*. Effects of particle size, crystal phase and surface treatment of nano-TiO2 on the rheological parameters of cement paste[J]. Construction and Building Materials. 2020, 239, 117897

[16] Han B.*, Sun S., Ding S., Zhang L., Yu X., Ou J.. Review of nanocarbon-engineered multifunctional cementitious composites .[J] Composites Part A: Applied Science and Manufacturing, 2015,70, 69-81. (该期刊高被引论文)

[17] Han B.*, Wang Y., Dong S., Zhang L., Ding S., Yu X., Ou J.. Smart concretes and structures: A review [J]. Journal of intelligent material systems and structures, 2015, 26(11), 1303-1345. (该期刊的Most read论文)

[18] Han B.*, Wang Y., Ding S., Yu X., Zhang L., Li Z., Ou J.. Self-sensing cementitious composites incorporated with botryoid hybrid nano-carbon materials for smart infrastructures [J]. Journal of Intelligent Material Systems and Structures, 2017, 28(6): 699-727.( SCI检索)

[19] Li Y., Dong S., C R A , Zhang L., Han B.*. Improving the mechanical characteristics of well cement using botryoid hybrid nano-carbon materials with proper dispersion[J]. Construction and Building Materials, 2021, 270:121464.

[20] Wang X., Xu L., Ouyang J., Zhang L., Han B.*. Rheology and mechanical strength of cementitious composite with nano-particles [J]. Journal of Material and Applications. 2016, 43-48.

[21] 董素芬, 张立卿, 李祯, 姜海峰, 韩宝国*。基于数值模拟的碳纳米管水泥基复合材料导电机理分析[J]. 功能材料. 2015,46(11):11021-11026. (EI检索)

 

2)会议论文

[1] Zhang L., Dong S., Wang Y., Han B.*. Multifunctionalities of Nanocarbon Materials Filled Cement-based Composites [C]. 2014 China Functional Materials Technology and Industry Forum. Xi’an, 8, 26-28, 2014. 国际会议论文. 转期刊发表, Materials Science Forum, 2015, (809-810), 144-154. (EI检索)

[2] Zhang L., Dong S., Ding S., Sun S., Han B.*. Intrinsic self-sensing concrete for smart infrastructures [C]. 1st Iinternational Workshop on Structrural Health Monitoring for Railway System, Qingdao 10, 12-14, 2016.

六、科技奖励与专利

奖励

专利

[1] 韩宝国,张立卿, 欧进萍。一种具有高灵敏度的智能水泥基材料,中国[P].发明类别:发明专利. 发明专利申请号: ZL2018 1 0396628.6 [P]. 发明类别:发明专利,授权日期:2020,09,29

[2] 韩宝国, 张立卿, 王云洋,欧进萍。静电自组装碳纳米管/纳米炭黑复合砂浆的制备方法和应用:中国, ZL2015 1 0497289.7 [P]. 发明类别:发明专利,授权日期:2017,05,24

[3] 韩宝国,张立卿, 王云洋,欧进萍。复掺碳纤维和纳米二氧化硅的复合砂浆及其制备工艺和应用:中国,ZL201510497312.2 [P].发明类别:发明专利,授权日期:2018,01,09

[4] 韩宝国, 王云洋, 张立卿,欧进萍。导电水泥基复合材料及其制备方法和应用:中国, ZL2015 1 0492630 [P]. 发明类别:发明专利,授权日期:2017,08,22

[5] 韩宝国, 李祯, 张立卿,欧进萍。一种掺包硅纳米二氧化钛的水泥基复合材料及其制备方法. 发明专利申请号:201610505181.2 [P]. 发明类别:发明专利,授权日期:2018,05,18

七、荣誉

[1] 2019年,华东交通大学“天佑新星”

[2] 2020年,华东交通大学优秀毕业设计指导老师

八、社会兼职与活动

[1] International Association of Advanced Materials学会会员

[2] 复合材料学会会员

[3] 受邀担任领域内的重要国际期刊Construction and Building MaterialsJournal of Materials Research and TechnologyMaterials Research ExpressAdvances in Materials Science and Engineering审稿人