Research on High Toughness Concrete based on Green Ultra-low Carbon

Guangshuo Zhang; Zehao Chen; Yinuo Zheng

doi:10.54097/wanhfz37

Authors

Guangshuo Zhang
Zehao Chen
Yinuo Zheng

DOI:

https://doi.org/10.54097/wanhfz37

Keywords:

Green Ultra-low Carbon; High Toughness; Carbon Emission; Concrete; Alkali-stimulated Cementitious Materials.

Abstract

Based on the pollution of construction solid waste and the promotion of “double carbon” strategy, this paper aims at designing and researching a kind of low carbon, environmental protection, high toughness concrete. The research in this paper mainly includes the composition of ultra-low carbon green high toughness materials, solid waste reuse, proportion design, performance investigation, component interaction, etc., in-depth elaboration of the characteristics of ultra-low carbon green high toughness concrete, put forward to effectively improve the performance of this kind of concrete, new material composition and proportion design method, for the follow-up of the high-performance concrete optimal proportion design to provide a method. Finally, the development direction of green ultra-low-carbon high-performance concrete is prospected, and the problems existing at this stage are analyzed.

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References

[1] Li X. Research on the synergistic preparation of green and low-carbon composite cementitious materials from multiple sources of solid waste [D]. Hebei University of Engineering, 2023.

[2] Gui Baoxing, Wu Chi, Luo Yu. Low-carbon green research and application of high-performance concrete[J]. Residence, 2023, (06):148-150.

[3] ZHANG Ping, CHEN Xu, LI Shaochun,et al. Preparation of green low-carbon high-performance concrete and its performance [J]. New Building Materials,2020,47(09):155-158.

[4] Yang Q. Research on dynamic mechanical properties of recycled concrete in Hopkinson compression bar experiment [D]. Xi'an University of Science and Technology, 2018.

[5] Ziyun Chen, Ruwei Zhang, Yuchen Liu, et al. Research on the technology of new offshore concrete mixing equipment based on green and low carbon [J]. Construction Machinery, 2024, (02): 26-29.

[6] ZHANG Lipeng, MIAO Baodong, PENG Wenbo, et al. Study on the performance of geopolymer cementitious materials based on orthogonal test [J]. Construction Technology (in Chinese and English),2024,53(03):146-155.

[7] ZHANG Lingtong, ZHANG Dong, LI Baoyuan,et al. Application of construction waste concrete recycled aggregate in road subgrade [J]. Heilongjiang Science,2023,14(20):18-21.

[8] LIU Pingyun, ZHANG Han, LI Kun,et al. Experimental study on the effect of water-cement ratio on the performance of mechanism sand concrete[J]. Concrete and Cement Products, 2024, (05):1-6.

[9] Lai DD. Research on impact resistance of fiber-rubber concrete for structural protection [D]. Zhejiang University, 2023.

[10] Li Shun, Yu Qijun, Wei Jiangxiong. Influence of molecular structure of polycarboxylic acid water reducing agent on the hydration process of cement [J]. Journal of Silicates, 2012, 40 (04): 613-619.