张宇,学术教授,1992年生,山东青岛人,毕业于东南大学材料科学与工程专业。长期致力于先进土木工程材料与储能器件研发,基于第一性原理/分子动力学探索原子尺度机理,开展多尺度结构控制,为先进材料设计提供理论支撑。承担国家级课题4项、省部级1项,开放课题2项,入选山东科技大学菁英计划A类人才,在Cement and Concrete Research、Composites Part B: Engineering等国际权威SCI期刊发表论文30余篇,引用量800余次,授权国家专利/软著10余件,出版论著1部,参编标准2部。
主要研究方向:水泥基电池、机器学习分子动力学、自感知混凝土修补材料、先进胶材制造
主讲课程:《建筑材料》、《建筑制图》、《环境保护概论》
学术兼职:担任SCI期刊Building客座主编、Frontiers in Materials编委,Applied Surface Science、Materials and Structure等10余部期刊审稿人
科研项目:
1.国家自然科学基金青年基金项目,硬化水泥净浆全尺度结构信息解码及其智能化设计方法(52308267),主持
2.国家自然科学基金面上项目,水工混凝土钙溶蚀多尺度机理及基于脱钙抑制的耐久性提升方法(52479128),主持
3.科技部国家重点研发计划青年科学家任务,苛刻环境下交通设施关键结构劣化机制与长寿命防护理论(2024YFF0510400),主持
4.科技部国家重点研发计划南海专项子课题,微生物增强固化与表面增效优化技术(2023YFC3106604),主持
5.山东省自然科学基金青年项目,水化硅酸钙凝胶力学性能量化及力学本源探索(ZR2024QE479),主持
6.山东科技大学菁英计划A类项目,主持
7.海洋环境混凝土技术教育部工程研究中心开放基金(2024KFKT-YB18),主持
8.江苏省土木工程材料重点实验室开放基金(202506),主持
9.科技部国家重点研发计划川藏专项,川藏铁路隧道洞渣高质化利用关键技术(SQ2022YFB2300042),参与
主要科研论著(一作/通讯):
1.Zhang Y, Guo L, Jiang J⁎, et al. Full process of calcium silicate hydrate decalcification: Molecular structure, dynamics, and mechanical properties[J].Cement and Concrete Research, 2022, 161: 106964.
2.Zhang Y, Zhang Q, Hou D, et al. Tuning interfacial structure and mechanical properties of graphene oxide sheets/polymer nanocomposites by controlling functional groups of polymer[J].Applied Surface Science, 2020, 504: 144152.
3.Zhang Y, Wu J, Wang L, Sun G, Hou D, Yu J, et al. Atomic-level structure evolution of calcium silicate hydrate nucleation process, the amorphous-to-crystalline pathway.Journal of the American Ceramic Society. 2024;1–14.
4.Zhang Y, Yang Z, Jiang J⁎. Insight into ions adsorption at the CSH gel-aqueous electrolyte interface: From atomic-scale mechanism to macroscopic phenomena[J].Construction and Building Materials, 2022, 321: 126179.
5.Zhang, Y, Li, T, Hou, D,et al.Insights on the magnesium and sulfate ions adsorption on the surface of sodium alumino-silicate hydrate (NASH) gel: a molecular dynamics study [J].Physical Chemistry Chemical Physics,2018, 20, 18297-18310.
6.Zhang Y, Wan X, Hou D, et al. The effect of mechanical load on transport property and pore structure of alkali-activated slag concrete [J].Construction and Building Materials, 2018, 189: 397-408.
7.Zhang Y, Zhang JL, Jiang JY, et al.The effect of water molecules on the structure, dynamics, and mechanical properties of sodium aluminosilicate hydrate (NASH) gel: A molecular dynamics study [J].Construction and Building Materials, 2018, 193, 491-500.
8.Zhang, Y, Yang, T, Hou, D, et al.Molecular dynamics study on the weakening effect of moisture content on graphene oxide reinforced cement composite [J].Chemical Physics Letters, 2018, 708, 177-182
9.Hou D, Xu J,Zhang Y⁎, et al. Insights into the molecular structure and reinforcement mechanism of the hydrogel-cement nanocomposite: An experimental and molecular dynamics study[J].Composites Part B: Engineering, 2019, 177: 107421.
10.Jiang J, Guo L, Tang L, andZhang Y⁎. The manner and extent to which the hydration shell impacts interactions between hydrated species[J].Physical Chemistry Chemical Physics, 2021, 23(36): 20496-20508.
11.Wang F,Zhang Y⁎, Jiang J, et al. Effect of temperature on the capillary transport of sodium sulfate solution in calcium silicate hydrate nanopore: A molecular dynamics study[J].Construction and Building Materials, 2020, 231: 117111.
12.Wan H,Zhang Y⁎. Interfacial bonding between graphene oxide and calcium silicate hydrate gel of ultra-high performance concrete[J].Materials and Structures, 2020, 53(2).
13.Wan H, Yuan L,Zhang Y⁎. Insight into the leaching of sodium alumino-silicate hydrate (N-A-S-H) gel: A molecular dynamics Study[J].Frontiers in Materials, 2020, 7, 56.
14.Lu L,Zhang Y⁎, Yin B. Structure evolution of the interface between graphene oxide-reinforced calcium silicate hydrate gel particles exposed to high temperature[J].Computational Materials Science, 2020, 173: 109440.
15.Wang F, Wang Y,Zhang Y⁎, et al. Debonding mechanisms of epoxy from calcium silicate hydrate surface under the conditions of saline solution at elevated temperature[J]. Journal of Materials Research and Technology, 2023.
指导学生竞赛
玻璃纤维织物增强碱激发砂浆拉伸性能优化控制,2024.06~2025.06,创新训练项目(国家级),指导教师.
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