基本信息
姓 名:张大旺
职 称:副教授
E-Mail:zhangdawang@xauat.edu.cn
学 科:材料科学与基础
教育背景

2010年9月-2014年7月,安徽工业学校高分子材料与工程专业,获学士学位 2014年9月-2016年7月,中国矿业大学(北京)化学工程专业,获硕士学位 2016年9月-2019年7月,中国矿业大学(北京)应用化学专业,获博士学位

工作经历

2019年9月-2022年12月,皇冠hg8868老版本,师资博士后 2022年12月-至今,皇冠hg8868老版本,副教授

主讲课程及教学成果

研究方向

固体废弃物资源化利用

学术论文及著作

已发表论文30余篇,其中在Construction and Building Materials、Ceramics International、Journal of Building Engineering以及Journal of Materials in Civil Engineering发表SCI论文20篇(其中第一作者和通讯作者15篇),EI论文2篇,国际会议论文2篇,主持国家自然科学青年基金1项和陕西省教育厅协同创新中心项目1项,参与国家自然科学基金面上项目2项以及多项横向项目。同时参与《碱激发胶凝材料》的译著、《固废资源化与生态建筑材料》和《中国大宗固废绿色化产业实用技术指南》的编写。 [1]Zhang D W, Zhao K F. Improvement of the thermal properties of alkali-activated fly ash after high temperature by the Fe-based solid wastes [J].Case Studies in Construction Materials,2022. [2]Zhang D W .Relationship between macro-properties and amorphous gel of FA-based AAMs with different curing conditions after elevated temperature[J]. Ceramics International,2023. [3]Zhang D W .An application of alkali-activated fly-ash materials with low-compressive strength: Thermal stability at elevated temperatures[J]. Journal of Building Engineering,2022. [4]Zhang D W, Sun X M. Stability of superplasticizer on NaOH activators and influence on the rheology of alkali-activated fly ash fresh pastes[J]. Construction and Building Materials, 2022, [5]Xu Z Y, Zhang D W. Effect of FA and GGBFS on compressive strength, rheology, and printing properties of cement-based 3D printing material[J]. Construction and Building Materials, 2022. [6]Zhang D W, Wang D M. Mechanical Properties of Fly Ash–Slag Based Alkali-Activated Materials under the Low-Energy Consummation-Sealed Curing Condition[J]. Journal of Materials in Civil Engineering, 2021. [7]Zhang D W, Zhao K F. Dispersion properties of fly ash–slag powders under the different environment[J]. Construction and Building Materials, 2021. [8]Zhang D W, Zhao K. Relationship of amorphous gel-microstructure-elastoviscosity properties of alkali-activated materials fresh pastes with different Ms waterglass[J]. Construction and Building Materials, 2021. [9]Zhang D W, Zhao K F, Xie F Z, Wang D M*, et al. Effect of water-binding ability of amorphous gel on the rheology of geopolymer fresh pastes with the different NaOH content at the early age[J]. Construction and Building Materials, 2020, 261: 120529. [10]Xie F Z, Liu Z*, Zhang D W*, et al. Reaction kinetics and kinetics models of alkali activated phosphorus slag[J]. Construction and Building Materials, 2020, 237: 117728. [11]Zhang D W, Zhao K F, Xie F Z, Wang D M*, et al. Rheology and agglomerate structure of fresh geopolymer pastes with different Ms ratio of waterglass[J]. Construction and Building Materials, 2020, 250: 118881. [12]Xie F Z, Liu Z*, Zhang D W*, et al. The effect of NaOH content on rheological properties, microstructures and interfacial characteristic of alkali activated phosphorus slag fresh pastes[J]. Construction and Building Materials, 2020, 252: 119132. [13]Xie F Z, Liu Z*, Zhang D W*, et al. Understanding the acting mechanism of NaOH adjusting the transformation of viscoelastic properties of alkali activated phosphorus slag[J]. Construction and Building Materials, 2020, 257: 119488. [14]Zhang D W, Wang D M *, Xie F Z. Microrheology of fresh geopolymer pastes with different NaOH amounts at room temperature[J]. Construction and Building Materials, 2019, 207:284-290. [15]Liu Z, Zhang D W, Li L, et al. Microstructure and phase evolution of alkali-activated steel slag during early age[J]. Construction and Building Materials, 2019, 204:158-165. [16]Zhang D W, Wang D M*, Lin X Q, et al. The study of the structure rebuilding and yield stress of 3D printing geopolymer pastes[J]. Construction & Building Materials, 2018, 184:575-580 [17]Zhang D W, Wang D M*, Liu Z, et al. Rheology, agglomerate structure, and particle shape of fresh geopolymer pastes with different NaOH activators content[J]. Construction and Building Materials, 2018, 187:674-680. [18]张大旺, 王栋民*. 地质聚合物混凝土研究现状[J]. 材料导报, 2018, 32(9):10. [19]张大旺, 王栋民*, 朴春爱,等. 钢渣掺量对3D打印地质聚合物材料新拌浆体流变性的影响[J]. 应用基础与工程科学学报, 2018, 26(3):9. [20]Xu Z Y, Zhang D W, Li H, et al. Effect of FA and GGBFS on compressive strength, rheology, and printing properties of cement-based 3D printing material [J]. Construction & Building Materials,2022,339. [21]Xu Z Y, Zhang D W, Li H, et al. Effects of the distribution of solid particles on the rheological properties and buildability of 3DPM fresh pastes with different FA/GGBFS content[J]. Archives of Civil and Mechanical Engineering, 2023,23 (2). [22]张大旺,王栋民.3D打印地质聚合物材料的早期工作性研究[J].混凝土世界,2018(09):64-68. [23]王栋民,张大旺,刘泽,夏江宝,蔺熹强,张涛.3D打印混凝土标准与规程制定的问题研究[J].混凝土,2019(04):1-4. [24]徐卓越,李辉,张大旺,孙雪梅,赵柯飞,王悦莹.建筑3D打印用胶凝材料及其相关性能研究进展[J].材料导报,2023(12):1-29 [25]张大旺,王栋民.3D打印混凝土材料及混凝土建筑技术进展[J].硅酸盐通报,2015,34(06):1583-1588.

所获荣誉

科研项目及科研成果

社会兼职

中国固废与生态材料 青年委员会 兼任《Cement and Concrete Composites》、《Construction and Building Materials》、《Applied Clay Science》、《Chemical Engineering Science》及《Journal of Building Engineering》等杂志审稿人。

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