崔宏志
Personal information
Highest Degree:Doctoral degree
Professional Title:Professor
Administrative Position:Director, SZU Department of Science and Technology
Academic Honor:
2013 Shenzhen Overseas High-Caliber Personnel Peacock Plan Level B
2013 Shenzhen University Outstanding Scholar
2018 "Pengcheng Scholars" in Shenzhen Distinguished Professor
2019 National Science Fund for Distinguished Young Scholars
2019 Shenzhen High-Caliber Personnel Local Leading Talents
Journal Paper
- [1]Cui*.Hongzhi*.Bao.Xiaohua.Investigation on thermo-mechanical behavior of reinforced concrete energy pile with large cross-section in saturated sandy soil by model experiments,Underground Space,2019-05-01.
- [2]Cui*.Hongzhi*.Bao.Xiaohua.Soil liquefaction mitigation in geotechnical engineering: An overview of recently developed methods,Soil Dynamics and Earthquake Engineering,2019-05-01.
- [3]Sang*.Guochen*.Sang.Guochen.Thermo-mechanical properties of compaction molded cement-based composite containing a high volume fraction of phase change material for thermal energy storage,Composites,2019-05-01.
- [4]Tang*.Waiching*.Tang.Waiching.Influence of surface treatment of recycled aggregates on mechanical properties and bond strength of self-compacting concrete,Sustainability,2019-01-01.
- [5]Cui*.Hongzhi*.Zheng.Dapeng.Effect of Graphene Oxide on the Crystallization of Calcium Carbonate by C3S Carbonation,Materials,2019-01-01.
- [6]Bao*.Xiaohua*.Cui.Hongzhi.Effect of carbon fiber and nanosilica on shear properties of silty soil and the mechanisms,Construction and Building Materials,2018-11-01.
- [7]Cui*. Hongzhi*.Zhang.Bo.Thermal and mechanical properties of expanded graphite/paraffin gypsum-based composite material reinforced by carbon fiber,Materials,2018-11-01.
- [8]Cui*.Hongzhi*.Jin.Zhiyang.Experimental Investigation on Graphene Oxide/SrCl2· 6H2O Modified CaCl2· 6H2O and the Resulting Thermal Performances,Materials,2018-09-01.
- [9]Xing*.Feng*.Cui.Hongzhi.Effect of carbon fibers grafted with carbon nanotubes on mechanical properties of cement-based composites,Construction and Building Materials,2018-08-01.
- [10]Poon*.Sun*.Chi*.Yang.Shuqing.Assessment of in-situ alkali-silica reaction (ASR) development of glass aggregate concrete prepared with dry-mix and conventional wet-mix methods by X-ray computed micro-tomography,Cement and Concrete Composites,2018-07-01.