Name |
Honglei CHANG |
Gender |
Male |
Position |
Assistant professor |
Address |
NO.12550 Erhuandong Road, Shizhong District, Jinan City, Shandong Province, China |
Tel |
15150690472 |
E-mail |
hlchang@sdu.edu.cn |
Education
Doctor, 2013/9-2018/3, Materials Science and Engineering, Southeast University
Doctor, 2015/11-2017/5, Materials Science, National ResearchCouncil of Spain
Master, 2011/7-2013/6, Materials Science, Qingdao University of Technology
Bachelor, 2007/9/-2011/6, Materials Science and Engineering, Qingdao University of Technology
Working Experience
2018/5--, Assistant professor, Shandong University, China/Jinan.
Research Interests
1. Durability and degradation mechanism of concrete
2. Self-healing cementitious-based materials
3. High performance cementitious-based materials design
Selected Projects
1.Phase dependent chloride binding and its interaction with transport behavior in concrete, National Natural Science Foundation of China, 2020-2022, Principal investigator.
2. Chloride binding capacity of multiple phases in cement hydration system,Natural Science Foundation of Shandong Province, 2019-2021,Principal investigator.
3. Intelligent healing cementitious-based materials for highway transportation infrastructure,Qilu Transportation Development Group, 2018-2020,Principal investigator.
4. Key design technology of multi-style high-quality fair-faced concrete, Sandong Zhugong Limited company,Sandong Construction (Dezhou) Co., Ltd.,2019-2020Principal investigator.
Professional Affiliations
1. Member of International Union of Laboratories and Experts in Construction Materials, Systems and Structures (RILEM)
2. Reviewer of several top international journals (Cement and Concrete Research, Cement and Concrete Composites, Construction and Building Materials, et.al.)
Honors and Awards
Nomination Award for Outstanding Doctoral Dissertation of Chinese Ceramic Society.
Selected Publications
1. Honglei Chang, Song Mu, Pan Feng. Influence of carbonation on “maximum phenomenon” in surface layer of specimens under cyclic wetting and drying condition[J]. Cement & Concrete Research, 2018, 103: 95-109.
2. Honglei Chang. Chloride binding capacity of pastes influenced by carbonation under three conditions[J]. Cement & Concrete Composites, 2017, 84: 1-9.
3. Honglei Chang, Song Mu, Deqing Xie, Penggang Wang. Influence of pore structure and moisture distribution on chloride “maximum phenomenon” in surface layer of specimens exposed to cyclic drying-wetting condition[J]. Construction & Building Materials, 2017, 131: 16-30.
4. Honglei Chang, Pan Feng, Kai Lyu, Jian Liu. A novel method for assessing C-S-H chloride adsorption in cement pastes[J].Construction & Building Materials, 2019, 225: 324-331.
5. Honglei Chang, Pan Feng, Jian Liu, Zuquan Jin, Kai Lv, Qiaoling Liu. Chloride maximum phenomenon near the surface of cement paste induced by moisture evaporation and carbonation[J]. Materials and Structures, 2018, 51(5). (SCI) 2018.10; 2.548
6. Chang Honglei, Jin Zuquan, Zhao Tiejun, Wang Benzhen, Li Zhe, Liu Jian. Capillary suction induced water absorption and chloride transport in non-saturated concrete: the influence of humidity, mineral admixtures and sulfate ions[J]. Construction & Building Materials, 2020, 236, 117581.
7. Honglei Chang, Zuquan Jin. Relation between humidity and chemically combined water under self-desiccation condition[J]. Magazine of Concrete Research, 2017, 69(12): 641-648. (SCI)WOS:000401358000005,2017.06,2.026
8. Pan Feng, Honglei Chang*, Xin Liu, Shaoxiong Ye, Xin Shu, Qianping Ran.The Significance of Dispersion of nano-SiO2 on Early Age Hydration of Cement Pastes. Materials and Design, 2020, 186, 108320.
9. Zhou Yang, Dongshuai Hou, Honglei Chang*, Jiao Yu, Jingshun Cai. The inhibiting effect and mechanisms of smart polymers on the transport of fluids throughout nano-channels[J]. Applied Surface Science, 2020, 500, 144019.
10. Chang Honglei, Zuo Zhiwu, Qu Mingyue, Wang Fei, Ge Zhi*, Liu Jian*. Influence of pore structure on chloride penetration in cement pastes subject to wetting-drying cycles[J]. Advances in Materials Science and Engineering, 2019, 3909348.
