个人简介
黄振宇:博士,现为深圳大学土木与交通工程学院教师,特聘研究员,博导,深圳市海外高层次人才(孔雀计划人才),深圳市南山区领航人才。于2015年12月获新加坡国立大学土木与环境工程系哲学博士学位,先后加入新加坡国立大学海洋工程研究中心及胜科工业(SembCorp)-国立大学联合实验室任博士后研究员。主要从事超轻质高性能绿色混凝土研发及应用,新型钢-混凝土组合结构、海洋工程纤维增强FRP材料及结构及预制全装修模块化建造技术方面的科研工作。近年来主持和参加各级科研项目10项:包括主持国家自然科学基金青年基金1项,面上项目1项,参与国家自然科学基金面上项目3项;主持广东省普通高校特色创新项目1项目,深圳市自然科学基金项目1项;参与海外基金项目3项:包括新加坡国家基金委NRF-胜科工业(SembCorp)重点基金项目1项,新加坡政府科学技术与研究院(A*STAR)项目1项,新加坡港务局(MPA)与美国船级社(ABS)联合项目1项。近五年发表学术论文40余篇:其中SCI/EI检索20篇。授权实用新型专利13项。获2015年和2016年美国混凝土协会ACI (新加坡分会) 高性能混凝土项目竞赛金奖和银奖;获第八届钢结构和铝合金结构国际会议(ICSAS 2016)唯一最佳组合结构论文奖;获首届国际钢结构研究及应用会议(ICSC 2018)最佳论文奖。
工作经历
2019/10—至 今 研究员, 土木与交通工程学院, 深圳大学
2017/09—2019/10 副研究员, 土木工程学院, 深圳大学
2017/07—2017/09 助理教授, 土木工程学院, 深圳大学
2016/10—2017/07 Research Fellow, SembCorp-NUS Corporate Lab, National University of Singapore
2015/07—2016/10 Research Associate/Fellow, Department of Civil and Environmental Engineering, National University of Singapore
教育背景
2011/08—2015/12 National University of Singapore (新加坡国立大学), Department of Civil and Environmental Engineering, Ph.D
研究领域
新型钢-混凝土组合结构
超轻质高性能绿色混凝土
海洋工程FRP-钢-混凝土组合结构
预制全装修模块化建造技术
科研项目
1. 国家自然科学基金项目面上项目, FRP-超轻质混凝土-不锈钢组合管结构疲劳破坏机理及设计方法研究, 项目主持人, 2020/01-2023/12.
2. 国家自然科学基金项目青年基金项目, 多层钢-RULCC-钢夹芯组合墙板抗冲击破坏机理及其设计方法研究, 项目主持人, 2018/01-2020/12.
2. 国家自然科学基金面上项目, LRS-FRP-钢双管混凝土双连梁系统及其抗震性能研究, 参与, 2018/01-2021/12.
3. 国家自然科学基金面上项目, 外加电流作用下CFRP/海砂混凝土界面性能劣化机理和定量预测模型的多尺度研究, 参与, 2018/01-2021/12.
4. 国家自然科学基金面上项目, 51878415, FRP直筋/网格箍-混凝土梁的力学性能试验研究及设计理论,参与, 2019/01-2022/12.
5. 2018年广东省普通高校特色创新项目, 项目主持人, 2018/1-2019/12.
6. 深圳市孔雀计划科研启动, 项目主持人, 2018/1-2020/12.
7. 2019年深圳市科创委基础研究(自由探索)项目, 项目主持人, 2019/9-2020/12.
8. 2018年度深圳大学教学改革研究项目, 项目主持人, 2018/09-2019/09.
9. 2017年深圳大学新引进教师科研启动项目, 项目主持人, 2017/6-2019/5.
近期论文
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期刊论文
[1] Huang, Z.; Wang, F.; Zhou, Y.; Sui, L.; Krishnan, P.; Liew, J.-Y.R. A Novel Multifunctional Floatable Lightweight Cement Composite: Development and Properties. Materials 2018, 11, 2043. (JCR Q1)
[2] Yingwu Zhou, Xiaowei Wang, Lili Sui, Feng Xing, Zhenyu Huang, Cheng Chen, Pengda Li and Liu Mei. Effect of Mechanical Fastening Pressure on the Bond Behaviors of HB-FRP-to-concrete Interface. Composite Structures, 2018,204: 731-744. (JCR Q1)
[3] Cheng Chen, Xue Li, Debo Zhao, Zhenyu Huang, Lili Sui, Feng Xing, Yingwu Zhou, Mechanism of surface preparation on FRP-Concrete bond performance: A quantitative study, Composites Part B: Engineering, 2018, 163: 193-206. (JCR Q1)
[4] Yingwu Zhou, Menghuan Guo, Lili Sui, Feng Xing, Biao Hu, Zhenyu Huang, Yanchun Yun,Shear strength components of adjustable hybrid bonded CFRP shear-strengthened RC beams, Composites Part B: Engineering, 2018, 163: 36-51. (JCR Q1)
[5] Zhenyu Huang, Krishnan Padmaja, Shan Li, J.Y. Richard Liew, Mechanical properties and microstructure of ultra-lightweight cement composites with fly ash cenospheres after exposure to high temperatures, Construction and Building Materials,2018;164:760-774.(JCR Q1, 2017 IF 3.169)
[6] Mingxiang Xiong, Zhenyu Huang, J.Y.Richard Liew. Modified critical temperatures for steel design based on simple calculation models in Eurocode 3. Fire Technolog.2017; 53(1):227-248.(JCR Q2, 2016 IF 1.471)
[7] Zhenyu Huang, J.Y. Richard Liew, Wei Li. Evaluation of compressive behavior of ultra-lightweight cement composite after elevated temperature exposure. Construction and Building Materials 2017;148: 579-589.(JCR Q1, 2016 IF 3.169)
[8] J.Y. Richard Liew, Jia-bao Yan, Zhenyu Huang. Steel-Concrete-Steel Sandwich Composite Structures-Recent Innovations. Journal of Constructional Steel Research.2017;130: 202-221. (JCR Q1, 2016 IF 2.028)
[9] Zhenyu Huang, J.Y. Richard Liew. Steel-concrete-steel sandwich composite structures subjected to extreme loads. International Journal of Steel Structures.2016; 16(14):1-20. (2016 IF 0.609)
[10] Zhenyu Huang, J.Y. Richard Liew. Numerical studies of steel-concrete-steel sandwich wall subjected to axial loads. Steel and composite structures.2016; 21(3): 461-477. (JCR Q2, 2016 IF 3.198)
[11] Zhenyu Huang, J.Y. Richard Liew. Compression resistance of steel-concrete-steel composite wall with J-hook connectors. Journal of Constructional Steel Research 2016;124: 142-162.(JCR Q1, 2016 IF 2.028)
[12] Zhenyu Huang, J.Y. Richard Liew. Experimental and analytical studies of curved steel-concrete-steel sandwich panels under patch loads. Materials & Design 2016;93:104-117 (JCR Q1, 2015 IF 3.997)
[13] Zhenyu Huang, J.Y. Richard Liew. Structural behaviour of steel-concrete-steel sandwich composite wall subjected compression and end moment. Thin-walled Structures 2016; 98: 592-606. (JCR Q1, 2016 IF 2.829)
[14] Zhenyu Huang, J.Y. Richard Liew. Nonlinear finite element modelling and parametric study of curved steel-concrete-steel double skin composite panel filled with ultra-lightweight cement composite. Construction and Building Materials 2015; 95:922-938. (JCR Q1, 2015 IF 2.421)
[15] Zhenyu Huang, Junyan Wang, J.Y. Richard Liew and Peter Marshall. Lightweight steel-concrete-steel sandwich shell subject to punching shear. Ocean Engineering 2015; 102: 146-161. (JCR Q1, 2015 IF 1.488)
[16] Zhenyu Huang, J.Y. Richard Liew, Mingxiang Xiong and Junyan Wang, Structural behaviour of double skin composite system using ultra-lightweight cement composite. Construction and Building Materials 2015;86: 51-63.(JCR Q1, 2015 IF 2.421)
邀请报告
[1] Zhenyu Huang* (2018), "Lightweight steel-concrete composite structures—recent innovations, Advances in Steel-Concrete Composite Structures ", Special Session Organizer. International Conference on Engineering Research and Practice for Steel Construction 5 – 7 September 2018, Hong Kong.
[2] Zhenyu Huang*, J.Y. Richard Liew (2017), "Towards the Use of High Strength and Lightweight Materials in Composite Construction", Advanced Construction - Transforming the Built Environment sector through Construction Productivity R&D. The 4th Urban Sustainability R&D Congress, June 29-30, 2017, Singapore.
[3] Zhenyu Huang*, J.Y. Richard Liew (2015), "Structural behaviour of novel steel-concrete-steel sandwich composite walls ", International Workshop on Advances in Steel and Composite Structures, December 8, 2015, Nanjing Tech University, Jiangsu, China.
[4] Zhenyu Huang* (2016). Ultimate strength behaviour of steel-concrete-steel sandwich composite shells and walls. Centre for Offshore Research and Engineering (CORE) and Department of Civil and Environmental Engineering, Faculty of Engineering, National University of Singapore, March 16, 2016, Singapore
学术兼职
1. 国家、广东省和深圳市自然科学基金评审专家
2. 中国钢结构协会钢-混凝土组合结构分会第九届理事会(2017-2021)理事
3. 广东省力学会青年工作委员
4. 美国混凝土协会(新加坡分会)会员
5. Frontiers in Materials, Guest Editor, 2019
6. Journal of Building Material Science编委, 2019
7. Materials Science: Advanced Composite Materials编委, 2018
8. 学术期刊《Composite Part B: Engineering》、《Thin-walled Structures》、《Materials & Design》、《Ocean Engineering》、《Construction and Building Materials》、《International Journal of Steel Structures》、《Structures》、《Journal of Advanced Steel Construction》、《Journal of Composite Materials》、《Journal of Building Engineering》、《Journal of Test and Evaluation》、《Steel and Composite Structures, An International Journal》、《KSCE Journal of Civil Engineering》、《Journal of mechanical behaviour of biomedical materials》等期刊审稿人。