张大旺,男,博士研究生,副教授,硕士生导师,西安建筑科技大学D类人才引进,主要从事固体废弃物资源化、高性能、功能化研究和3D打印建筑材料的研究。近年来,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,作为骨干参与国家自然科学基金面上项目2项以及多项横向项目。编写的《地质聚合物混凝土的流变学》,列入“十四五”时期国家重点出版物环境科学出版专项规划项目,同时作为副主译翻译《碱激发胶凝材料》和《地质聚合物-结构、工艺、性能和工业应用》两本著作、参与《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。目前H—index为15,以第一作者或通讯作者发表论文30余篇(中科院TOP期刊文章20余篇),包括Construction and Building Materials、Ceramics International等期刊,其中《地质聚合物混凝土研究现状》入选中国精品科技期刊顶尖学术论文,同时兼任《中国建材科技》、《新材料·新装饰》杂志编委,《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。
项目:
1.国家自然科学青年基金,高效减水剂的分子结构稳定性与碱激发胶凝材料新拌浆体流变性研究,Z20200275
2.国家自然科学基金,基于聚合反应调控的碱激发粉煤灰胶凝材料耐热-储热性能的研究
3.陕西省教育厅协同创新中心项目,碱激发固废材料高温自修复混凝士的制备及耐高温-光热性研究
4.企业委托横向项目,3D打印建筑材料体系的研究
5.企业委托横向项目,钢铁工业固废基3D打印胶凝材料的研发
6.企业委托横向项目,工业固废基3D打印砂浆的研发
社会兼职:
1.中国硅酸盐学会固废与生态材料分会煤基固废分会秘书长
2. 中国硅酸盐学会固废与生态材料分会3D打印分会委员
3.中国硅酸盐学会固废与生态材料分会青年学术委员会委员
4.中国散装水泥协会绿色建材智库专家
5.陕西省资源节约与综合利用领域专家智库专家
已发表论文:
[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. Ceramics International,2023
[3] Zhang D W .An application of alkali-activated fly-ash materials with low-compressive strength: Thermal stability at elevated temperatures. Journal of Building Engineering,2023
[4] Zhang D W, Sun X M. Efficiencies of Super-Plasticizer on Rheology Properties of Fly Ash-Based Alkali-Activated Materials with Different Ms Waterglass Activators.Polymers,2023.
[5] Zhang D W. Relationship between fractal characteristics of pore-structure and thermal properties of FA-based AAM under different curing conditions[J]. Journal of Materials Research and Technology,2023.
[6] 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,
[7] 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.
[8] Zhang D W, Zhao K F. Dispersion properties of fly ash–slag powders under the different environment[J]. Construction and Building Materials, 2021.
[9] 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.
[10] 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
[11] 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
[12] 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
[13] 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
[14] 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
[15] 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
[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
[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
[18] Zhuoyue Xu , Dawang Zhang.Mix design and fresh properties for clinker of Portland Cement Clinker based 3DPM. Composite Structures 320 (2023) 117229.
[19] Zhuoyue Xu , Dawang Zhang.Effect of additives on the mechanical properties, rheology, and printing properties of Pcc-based 3DPMs. Ceramics International 49 (2023) 28354-28368.
[20] Zhuoyue Xu , Dawang Zhang.Effect of FA and GGBFS on compressive strength, rheology, and printing properties of cement-based 3D printing material.Construction and Building Materials 339 (2022)127685.
[21] Zhuoyue Xu , Dawang Zhang.Effects of the distribution of solid particles on the rheological properties and buildability of 3DPM fresh pastes with different FA/GGBFS content. Archives of Civil and Mechanical Engineering 2023 23,81-96.
[22]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
[23]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.
[24] 徐卓越,李辉,张大旺等.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,2023,37(12):97-110. [23] 王栋民,张大旺,刘泽等.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.
[25] 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.
[26] 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(03):596-604.DOI:10.16058/j.issn.1005-0930.2018.03.013.
[27] 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(09):1519-1527+1540.
[28] 赵计辉,张大旺,赵世娇等.钢渣粉的胶凝性及其对水泥力学性能的影响[J].科学技术与工程,2015,15(17):222-226+241.
[29] 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.DOI:10.16552/j.cnki.issn1001-1625.2015.06.026.