ResearchGate:https://www.researchgate.net/profile/Guohao-Fang
GoogleScholar:https://scholar.google.com/citations?hl=zh-CN&user=AZ5hG74AAAAJ
教育背景:
2021,伦敦大学学院,土木工程,博士
2016,深圳大学,土木工程,硕士
2013,华南农业大学,土木工程,学士
工作经历:
2023.01至今,深圳大学高等研究院,特聘教授
2021.04-2022.12,深圳大学高等研究院,助理教授
研究兴趣:
1.绿色低碳材料的基础理论和关键技术研究,主要涉及多源固废基地质聚合物研究;碱激发材料研究;生活、工业固体废弃物建筑资源化利用;碳吸收、碳固化技术研究。
2.智能建筑材料的基础理论和关键技术研究,主要涉及微胶囊自修复技术研究;滨海基础设施智能防护体系研究。
科研项目:
1.国家自然科学基金委员会,国家自然科学基金面上项目,固废基自修复人造骨料混凝土设计方法与性能研究,2025-01至2028-12,48万元,主持,在研
2.国家自然科学基金委员会,国家自然科学基金优秀青年基金(海外)项目,地聚物基自修复人造骨料混凝土, 2023-01至2025-12, 300万元,主持,在研
3.国家自然科学基金委员会,青年科学基金项目, 52108232,再生骨料碱激发混凝土界面过渡区形成机制与调控方法, 2022-01至2024-12, 30万元,主持,在研
4.十四五国家重点研发计划,2022YFB2602601,交通基础设施材料高通量数字化表征方法研究,2022-12至2025-11,1600万元,子课题负责人,在研
5.国家自然科学基金委员会,专项项目, 52150009,滨海混凝土基础设施腐蚀双效防护系统, 2022-01至2022-12, 80万元,核心成员,第一期资助期满
6.深圳市海外高层次人才,孔雀启动经费,2023-1至2025-12,300万元,主持,在研
学术兼职:
1.深圳市低碳建筑材料与技术重点实验室副主任;
2.广东省硅酸盐学会低碳建筑材料与固废利用专业委员会副主任委员;
3.国际材料与结构研究实验联合会会员(RILEM);
4.斯普林格•自然可持续协会会员;
5.美国混凝土协会会员(ACI);
6.《Construction and Building Materials》,《Materials and Design》期刊审稿专家
获奖情况:
1.第二届“深大青年先锋奖章”获得者(2024年度)
2.2024年度深圳大学十佳青年教师称号
3.2023年度中国建筑材料联合会-中国硅酸盐学会 建筑材料科学技术奖 二等奖
4.2022年度深圳大学优秀班主任称号
5.2016-2020伦敦大学学院(UCL)Dean’s Prize-Tuition Scholarship
6.2016-2020国家公派奖学金CSC Scholarship
7.2016广东省优秀学生(研究生阶段)
8.2016深圳大学优秀毕业生
学术报告:
1.报告题目:Shrinkage characteristics of alkali-activated fly ash-slag pastes with impact of internal curing,RILEMWEEK 2018,代尔夫特,荷兰
2.报告题目:Autogenous shrinkage of alkali-activated fly ash/slag paste, 37thCement and Concrete Science Conference 2017,伦敦,英国
代表性论文:
1.E.D. Shumuye, C. Liu,G. Fang*,S. Mehrpay, Utilization of photocatalytic degradation and efficiency of engineered geopolymer composite tile doped with nano-particles under ultraviolet light,Cement and Concrete Composites, 153 (2024) 105729.(JCR-Q1; IF=10.800)
2.E.D. Shumuye, S. Mehrpay,G. Fang*,W. Li, Z. Wang, B.U. Uge, C. Liu, Influence of novel hybrid nanoparticles as a function of admixture on responses of engineered geopolymer composites: A review,Journal of Building Engineering, 86 (2024) 108782.(JCR-Q1; IF=6.700)
3.W. Tu,G. Fang*,B. Dong, Y. Hu, M. Zhang*, Behaviour of alkali-activated fly ash-slag paste at elevated temperatures: An experimental study,Cement and Concrete Composites, 147 (2024) 105438.(JCR-Q1; IF=10.800)
4.W. Tu,G. Fang*,B. Dong, M. Zhang*, Multiscale study of microstructural evolution in alkali-activated fly ash-slag paste at elevated temperatures,Cement and Concrete Composites, 143 (2023) 105258.(JCR-Q1; IF=10.800)
5.W. Tu,G. Fang*,B. Dong, M. Zhang*, Micromechanical analysis of alkali-activated fly ash-slag paste subjected to elevated temperatures,Cement and Concrete Composites, 153 (2024) 105735.(JCR-Q1; IF=10.800)
6.Y. Wang, J. Chen, H. Ren, Y. Zhang, S. Hong, B. Dong,G. Fang*,Design and characterization of solid waste based self-healing artificial aggregate,Case Studies in Construction Materials, 21 (2024) e03470.(JCR-Q1; IF=6.500)
7.F. Xing, X. He, C. Zhu, Y. Zhang, Y. Wang, B. Dong,G. Fang*,Design and characterization of carbonate-stone-powder-based foam concrete,Construction and Building Materials, 418 (2024) 135315.(JCR-Q1; IF=7.400)
8.G. Fang,J. Chen, B. Dong, B. Liu, Microstructure and micromechanical properties of interfacial transition zone in green recycled aggregate concrete,Journal of Building Engineering, 66 (2023) 105860 (JCR-Q1; IF=6.700)
9.Y. Wang, J. Liu, B. Dong, J. Ren,G. Fang*, Stabilization/solidification of sand-washing slurry used for porous cold-bonded ceramsite,Cement and Concrete Composites,134(2022)104771(JCR-Q1; IF=10.800)
10.G.Fang, Q. Wang, M. Zhang,In-situ X-ray tomographic imaging of microstructure evolution of fly ash and slag particles in alkali-activated fly ash-slag paste,Composites Part B, 224 (2021) 10922. (JCR-Q1; IF=12.700)
11.G. Fang, Q. Wang, M. Zhang, Micromechanical analysis of interfacial transition zone in alkali-activated fly ash-slag concrete,Cement and Concrete Composites, (2021)103990.(JCR-Q1; IF=10.800)
12.G. Fang, M. Zhang, The evolution of interfacial transition zone in alkali-activated fly ash-slag concrete,Cement and Concrete Research,129 (2020) 105963.(JCR-Q1; IF=10.900)
13.G. Fang, M. Zhang, Multiscale micromechanical analysis of alkali-activated fly ash-slag paste,Cement and Concrete Research, 135 (2020) 106141.(JCR-Q1; IF=10.900)
14.G. Fang, W. Ding, Y. Liu, J. Zhang, F. Xing, B. Dong, Identification of corrosion products and 3D distribution in reinforced concrete using X-ray micro computed tomography,Construction and Building Materials, 207 (2019) 304-315.(JCR-Q1; IF=7.400)
15.G. Fang, Y. Liu, S. Qin, W. Ding, J. Zhang, S. Hong, F. Xing, B. Dong, Visualized tracing of crack self-healing features in cement/microcapsule system with X-ray microcomputed tomography,Construction and Building Materials, 179 (2018) 336-347.(JCR-Q1; IF=7.400)
16.G. Fang, W.K. Ho, W. Tu, M. Zhang, Workability and mechanical properties of alkali-activated fly ash-slag concrete cured at ambient temperature,Construction and Building Materials, 172 (2018) 476-487.(JCR-Q1; IF=7.400)
17.G. Fang, H. Bahrami, M. Zhang, Mechanisms of autogenous shrinkage of alkali-activated fly ash-slag pastes cured at ambient temperature within 24 h,Construction and Building Materials, 171 (2018) 377-387.(JCR-Q1; IF=7.400)
18.B. Dong,G. Fang, Y. Liu, P. Dong, J. Zhang, F. Xing, S. Hong, Monitoring reinforcement corrosion and corrosion-induced cracking by X-ray microcomputed tomography method,Cement and Concrete Research, 100 (2017) 311-321.(JCR-Q1; IF=10.900)
19.B. Dong,G. Fang, Y. Wang, Y. Liu, S. Hong, J. Zhang, S. Lin, F. Xing, Performance recovery concerning the permeability of concrete by means of a microcapsule based self-healing system,Cement and Concrete Composites, 78 (2017) 84-96.(JCR-Q1; IF=10.800)
20.B. Dong,G. Fang, W. Ding, Y. Liu, J. Zhang, N. Han, F. Xing, Self-healing features in cementitious material with urea–formaldehyde/epoxy microcapsules,Construction and Building Materials, 106 (2016) 608-617.(JCR-Q1; IF=7.400)
21.Y. Wang,G. Fang, W. Ding, N. Han, F. Xing, B. Dong, Self-immunity microcapsules for corrosion protection of steel bar in reinforced concrete,Scientific Report,20155:18484.(JCR-Q2; IF=3.800)
22.W. Tu, Y. Zhu,G. Fang, X. Wang, M. Zhang, Internal curing of alkali-activated fly ash-slag pastes using superabsorbent polymer,Cement and Concrete Research, 116 (2019) 179-190.(JCR-Q1; IF=10.900)
23.B. Dong, Y. Wang,G. Fang, N. Han, F. Xing, Y. Lu, Smart release behavior of a chemical self-healing microcapsule in the stimulated concrete pore solution,Cement and Concrete Composites, 56 (2015) 46-50.(JCR-Q1; IF=10.800)
24.B. Dong, W. Ding, S. Qin, N. Han,G. Fang, Y. Liu, F. Xing, S. Hong, Chemical self-healing system with novel microcapsules for corrosion inhibition of rebar in concrete,Cement and Concrete Composites, 85 (2018) 83-91.(JCR-Q1; IF=10.800)
25.Y. Liu, Y. Wang,G. Fang, Y. Alrefaei, B. Dong, F. Xing, A preliminary study on capsule-based self-healing grouting materials for grouted splice sleeve connection,Construction and Building Materials, 170 (2018) 418–423.(JCR-Q1; IF=7.400)
26.B. Dong, W. Ding, S. Qin,G. Fang, Y. Liu, P. Dong, S. Han, F. Xing, S. Hong, 3D visualized tracing of rebar corrosion-inhibiting features in concrete with a novel chemical self-healing system,Construction and Building Materials, 168 (2018) 11–20.(JCR-Q1; IF=7.400)
27.W. Li, W. Ji,G. Fang, Y. Liu, F. Xing, Y. Liu, B. Dong, Electrochemical impedance interpretation for the fracture toughness of carbon nanotube/cement composites,Construction and Building Materials, 114 (2016) 499–505.(JCR-Q1; IF=7.400)
28.Y. Wang, W. Ding,G. Fang, Y. Liu, F. Xing, B. Dong, Feasibility study on corrosion protection of steel bar in a self-immunity system based on increasing OH-content,Construction and Building Materials, 125 (2016) 742-748.(JCR-Q1; IF=7.400)
29.B. Dong, J. Zhang, Y. Wang,G. Fang, Y. Liu, F. Xing, Evolution trace for early hydration of cement paste using electrical resistivity method,Construction and Building Materials, 119 (2016) 16-20.(JCR-Q1; IF=7.400)
30.B. Dong, J. Zhang, Y. Wang,G. Fang, Z. Ding, F. Xing, Tracing hydration feature aluminophosphate cementitious materials by means of electrochemical impedance method,Construction and Building Materials, 113 (2016) 997-1006.(JCR-Q1; IF=7.400)