Author(s)

Yanli Jia ¹

Affiliation(s)

¹ Henan Institute of Transportation Technology, Zhengzhou, 451450, China

Corresponding Author

Yanli Jia

ABSTRACT

With the advancement of construction technology, high-performance concrete (HPC) has been extensively applied in building engineering due to its excellent mechanical properties, durability, and workability. This paper provides a comprehensive analysis of the composition materials, mix optimization, mechanical properties, and the application of HPC in various building structures. It discusses the effects and advantages of HPC in modern architectural design and construction. Through case studies and comparative experimental data, this paper demonstrates that HPC not only enhances the load-bearing capacity and ductility of building structures but also plays a crucial role in extending their service life, reducing maintenance costs, and improving environmental sustainability. Additionally, the paper explores the challenges and future directions in the application of HPC, offering new perspectives for research in building materials and engineering practices.

KEYWORDS

High-performance concrete, building structures, mechanical properties, durability, environmental sustainability

CITE THIS PAPER

Yanli Jia, The Application of High-Performance Concrete in Building Structures and Analysis of Its Effects. Journal of Civil Engineering and Urban Planning (2024) Vol. 6: 143-149. DOI: http://dx.doi.org/10.23977/jceup.2024.060219.

REFERENCES

[1] Li Lijian, Xu Lihua, Chi Yin, Yu Min, Huang Le. A Constitutive Model of Fatigue Damage in Coarse Aggregate Ultra-High Performance Concrete. Journal of Building Structures. 2024(03): 11.
[2] Zhang Wei. Application of High-Performance Concrete in Construction. Jiangsu Building Materials. 2024(01): 28-30.
[3] Hu Baochun, Fu Chunyu, Li Shanshan. Preparation and Performance Study of High-Performance Foam Concrete. Functional Materials. 2024, 55(02): 2181-2186+2200.
[4] Pan Jinko, Zhang Ren, Wang Jian. Study on the Mix Design of C80 High-Performance Concrete for Wind Turbine Towers. Concrete World. 2024(01): 61-64.
[5] Gou Wankang. Discussion on Mechanical Performance Testing of High-Performance Concrete. Sichuan Building Materials. 2024, 50(01): 16-18.
[6] Wang Xiaowei, Xu Hangming, Zhan Zhaoyu, Diao Chengran, Mu Ru, Qing Longbang. Mechanical Properties of Directionally Reinforced Ultra-High Performance Concrete. Concrete. 2023(12): 39-43.

Sponsors, Associates, and Links

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• Journal of Sustainable Development and Green Buildings
  
  
• Landscape and Urban Horticulture
  
  
• Bridge and Structural Engineering
  
  
• Soil Mechanics and Geotechnical Engineering
  
  
• Journal of Municipal Engineering
  
  
• Heating, Ventilation and Air Conditioning
  
  
• Indoor Air Quality and Climate
  
  
• Computer Aided Architecture Design