Research on Intelligent Materials in the Civil Engineering Field
DOI:
https://doi.org/10.62051/qmepxw20Keywords:
Intelligent materials; Intelligent concrete; Shape Memory Alloy; Piezoelectric Materials.Abstract
With the continuous development of civil engineering technology, the requirements for material properties are getting higher and higher, and intelligent materials have attracted much attention as a new field. Based on the background of civil engineering, this paper discusses the research progress of four intelligent materials: carbon fiber concrete, nano carbon black concrete, shape memory alloy (SMA)and piezoelectric materials. The performance characteristics, application advantages and shortcomings of these four materials in civil engineering are mainly studied. Through comparative analysis, the excellent properties of carbon fiber concrete in terms of strength and durability, the significant improvement of mechanical properties and electrical conductivity of nano carbon black concrete, the unique advantages of SMA in earthquake self-healing, and the important role of piezoelectric materials in structural health monitoring are revealed. The conclusion shows that although intelligent materials show great potential in performance, problems such as cost, process and performance stability remain to be solved. The research in this paper not only enriches the research system of civil engineering materials, but also provides theoretical reference and practical guidance for the wide application of intelligent materials in civil engineering in the future.
Downloads
References
[1] D.F. Wang, Research on Development and Application of Intelligent Materials in Civil Engineering, Building Technology Development 48 (2021) 62-63.
[2] W.Y. Xu, Research on Application of Intelligent Materials in Civil Road and Bridge Construction, Henan Science and Technology 41 (2022) 83-86.
[3] X.Y. Wang, Study on Mechanical Properties and Microstructure of Intelligent Concrete Materials, Changchun Institute of Technology, 2022.
[4] Q. Tian, J. Zhou, J.W. Hou, Z.W. Zhou, Z.M. Liang, M. Sun, J.X. Hu, J.D. Huang, Building the future: Smart concrete as a key element in next-generation construction, Construction and Building Materials 429 (2024) 136364.
[5] Y. Yang, Analysis of the development status and working mechanism of intelligent concrete material, Dwellinghouse 20 (2023) 61-64.
[6] J.Y. Xu, D.H. Yan, S. Xiao et al., Self-sensing functional fillers in concrete structures: Review, Journal of Southwest Jiaotong University (2024) 1-17.
[7] L.D. Xu, J.T, Zhao, M.F. Shi, X.Y. Zhang, Z.Q. Wang, Application of shape memory alloys and their composites, Technological innovation and application 33 (2021) 23-25+31.
[8] I. Abavisani, O. Rezaifar, A. Kheyroddin, Multifunctional properties of shape memory materials in civil engineering applications: A state-of-the-art review, Journal of Building Engineering 44 (2021) 102657.
[9] L. Yang, Bending performance of FRP-concrete composite pipe based on piezoelectric ceramic intelligent sensing, Shenzhen University, 2022.
[10] Z.H. Gao, Damage identification and monitoring of concrete based on PTZ, Taiyuan University of Technology, 2021.
Downloads
Published
Conference Proceedings Volume
Section
License
Copyright (c) 2024 Transactions on Engineering and Technology Research
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
