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Academic Journal of Architecture and Geotechnical Engineering, 2023, 5(8); doi: 10.25236/AJAGE.2023.050804.

Research on the Bending Performance of Ultra-High-Performance Lightweight Concrete

Author(s)

Xuezheng Ju

Corresponding Author:
Xuezheng Ju
Affiliation(s)

School of Urban Construction, Yangtze University, Ningbo, 430100, China

Abstract

This study aims to investigate the bending performance of Ultra-High-Performance Lightweight Concrete (UHPLC). By utilizing micro-expansion agents and high-performance materials, we prepared a lightweight concrete to enhance its mechanical properties while reducing its self-weight. In the experiments, we employed standard bending test methods to analyze the bending strength, strain behavior, and failure mechanisms of UHPLC at different ages. The research results demonstrate that UHPLC exhibits outstanding characteristics in terms of bending performance, offering potential for wide-ranging applications.

Keywords

Ultra-High-Performance Lightweight Concrete; bending performance; micro-expansion agents; mechanical properties; failure mechanisms

Cite This Paper

Xuezheng Ju. Research on the Bending Performance of Ultra-High-Performance Lightweight Concrete. Academic Journal of Architecture and Geotechnical Engineering (2023) Vol. 5, Issue 8: 25-32. https://doi.org/10.25236/AJAGE.2023.050804.

References

[1] Wang, Q. (2023). Performance and Influencing Factors of Lightweight Ultra-High-Performance Concrete Incorporating Silica Sand. Bulletin of the Chinese Ceramic Society, 42(6), 1996-2006+2026.

[2] Bai, S. Y. (2019). Research Progress on Ultra-High-Performance Lightweight Concrete. Hubei Electric Power, 43(6), 94-99.

[3] Yang, Y. M. (2022). Research on the Influence of Preparation Process on Hydration Activity and Microstructure of Magnesia-Based Expansive Agent. Materials Research and Application, 16(3), 442-448.

[4] Gao, C. H. (2023). Study on Main Mechanical Properties and Durability of Red Mud-Based Pavement Concrete. Guangzhou University, 113.

[5] Lin, F. Y. (2022). Research on the Performance and Application Status of High-Performance Lightweight Concrete. Brick and Tile, 11, 36-38.

[6] Cao, Z. (2022). A Review of the Preparation of Lightweight Concrete. Concrete, 9, 184-187+192.