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

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[2]   Zhang D W .Relationshipbetween macro-properties and amorphous gel of FA-based AAMs with differentcuring 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 BuildingEngineering,2023

[4]   Zhang D W,Sun X M. Efficiencies of Super-Plasticizer on Rheology Properties of FlyAsh-Based Alkali-Activated Materials with Different Ms WaterglassActivators.Polymers,2023.

[5]   Zhang D W.Relationship between fractal characteristics of pore-structure and thermalproperties of FA-based AAM under different curing conditions[J]. Journal ofMaterials Research and Technology,2023.

[6]   Zhang D W,Sun X M. Stability of superplasticizer on NaOH activators and influence on therheology of alkali-activated fly ash fresh pastes[J]. Construction and BuildingMaterials, 2022,

[7]   Zhang D W,Wang D M. Mechanical Properties of Fly Ash–Slag Based Alkali-ActivatedMaterials under the Low-Energy Consummation-Sealed Curing Condition[J]. Journalof Materials in Civil Engineering, 2021.

[8]   Zhang D W,Zhao K F. Dispersion properties of fly ash–slag powders under the differentenvironment[J]. Construction and Building Materials, 2021.

[9]   Zhang D W,Zhao K. Relationship of amorphous gel-microstructure-elastoviscosity propertiesof 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 ofamorphous gel on the rheology of geopolymer fresh pastes with the differentNaOH 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 alkaliactivated 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 offresh geopolymer pastes with different Ms ratio of waterglass[J]. Constructionand Building Materials, 2020

[13] Xie F Z,Liu Z*, Zhang D W*, et al. The effect of NaOH content on rheologicalproperties, microstructures and interfacial characteristic of alkali activatedphosphorus 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 adjustingthe transformation of viscoelastic properties of alkali activated phosphorusslag[J]. Construction and Building Materials, 2020

[15] Zhang D W,Wang D M *, Xie F Z. Microrheology of fresh geopolymer pastes with differentNaOH 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 stressof 3D printing geopolymer pastes[J]. Construction & Building Materials,2018

[17] Zhang D W, Wang D M*, Liu Z, et al. Rheology, agglomerate structure, andparticle shape of fresh geopolymer pastes with different NaOH activatorscontent[J]. Construction and Building Materials, 2018

[18] Zhuoyue Xu , Dawang Zhang.Mixdesign and fresh properties for clinker of Portland Cement Clinker based 3DPM.Composite Structures 320 (2023) 117229.         

[19] Zhuoyue Xu , Dawang Zhang.Effectof additives on the mechanical properties, rheology, and printing properties ofPcc-based 3DPMs. Ceramics International 49 (2023) 28354-28368.

[20] Zhuoyue Xu , Dawang Zhang.Effectof FA and GGBFS on compressive strength, rheology, and printing properties ofcement-based 3D printing material.Construction and Building Materials 339(2022)127685.    

[21] Zhuoyue Xu , Dawang Zhang.Effectsof the distribution of solid particles on the rheological properties andbuildability of 3DPM fresh pastes with different FA/GGBFS content. Archives ofCivil and Mechanical Engineering 2023 23,81-96.                                       

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