Author:
Yao Yan,Wang Ling,Li Juan,De Belie Nele,Shi Xinyu,Van Den Heede Philip,Zhang Cheng,Liu Zhiyuan,Talakokula Visalakshi,Jin Zuquan,Xiong Chuansheng,Lu Jingzhou,Kamali-Bernard Siham,Bansal Tushar,Li Bin,Wang Zhendi,Huang Yu
Publisher
Springer Science and Business Media LLC
Subject
Mechanics of Materials,General Materials Science,Building and Construction,Civil and Structural Engineering
Reference17 articles.
1. Yao Y, Wang L, Wittmann FH, De Belie N, Schlangen E, Gehlen C, Wang Z, Alava HE, Cao Y, Md Yunus B, Li J (2017) Recommendation of RILEM TC 246-TDC: test methods to determine durability of concrete under combined environmental actions and mechanical load. Mater Struct 50(2):155. https://doi.org/10.1617/s11527-017-1000-3
2. Yao Y, Wang L, Wittmann FH, De Belie N, Schlangen E, Eguez Alava H, Wang Z, Kessler S, Gehlen C, Yunus BM, Li J, Li WH, Setzer MJ, Xing F, Cao Y (2017) Test methods to determine durability of concrete under combined environmental actions and mechanical load: final report of RILEM TC 246-TDC. Mater Struct 50(2):123. https://doi.org/10.1617/s11527-016-0983-5
3. Yao Y, Wang L, Li J, Cao Y (2020) Publications on durability of concrete under combined mechanical load and carbonation: an annotated bibliography. Aedificatio Publisher, Freiburg
4. Liu Z, Van den Heede P, De Belie N (2021) Effect of the mechanical load on the carbonation of concrete: a review of the underlying mechanisms, test methods, and results. Materials 14(16):4407. https://doi.org/10.3390/ma14164407
5. Zhang C, Wang L, Yao Y, Shi XY (2022) Experimental study on measuring carbonation depth of concrete by layer grinding pH value method. Mater Rep 36(07):174–177 (in Chinese)