Call for Paper, 25 December. 2024. Please submit your manuscript via online system or email at editor@ijew.io

ISSN E 2409-2770
ISSN P 2521-2419

Analysis of Mechanical Properties of Carbon Fiber Reinforced Concrete Based on Ansys Composite Model


 


Vol. 8, Issue 01, PP. 37-40, January 2021

DOI

Keywords: composite material model, fiber content, concrete, compressive and flexural

Download PDF


In order to study different carbon fiber contents and it’s influences on mechanical properties of concrete, ANSYS materials composites were synthesized to carry out numerical simulation. Here are the results of numerical analysis: The addition of carbon fiber composite can greatly improve the compressive strength of concrete. Among them, the mechanical properties of concrete with 1% carbon fiber content and 2% carbon fiber content are basically the same, but there is no clear improvement in flexural performance. Therefore, the enhancement of mechanical properties of concrete by fiber is closely related to its content. The study of the change between them can effectively reduce the loss of fiber, but also conducive to the promotion of fiber reinforced concrete.


  1. Zhao Xiaolong , 1052164899@qq.com, College of Resources and Environment, Yunnan Agricultural University, 650000, Kunming, Yunnan Province Key Laboratory of Efficient Urban and Rural Water Safety and Water Saving and Emission Reduction, 650000, Kunming, China.
  2. Ismail Shah, safiismail002@gmail.com, Yunnan Province Key Laboratory of Efficient Urban and Rural Water Safety and Water Saving and Emission Reduction, 650000, Kunming, School of Architecture and Civil Engineering, Yunnan Agricultural University, 650000, Kunming , China.
  3. Zhai Pingyu, , College of Foreign Languages, University of Jinan, 250022, Jinan, China.
  4. Fan Xiaoya, , College of Water Resources, Yunnan Agricultural University, 6500000, Kunming, College of Foreign Languages, University of Jinan, 250022, Jinan, China.
  5. Wang Jing, 1052164899@qq.com, Yunnan Province Key Laboratory of Efficient Urban and Rural Water Safety and Water Saving and Emission Reduction, 650000, Kunming, College of Water Resources, Yunnan Agricultural University, 6500000, Kunming, China.

Zhao Xiaolong Ismail Shah Zhai Pingyu Fan Xiaoya Wang Jing “Analysis of Mechanical Properties of Carbon Fiber Reinforced Concrete Based on An International Journal of Engineering Works Vol. 8 Issue 01 PP. 37-40 January 2021 https://doi.org/10.34259/ijew.21.8013740.


  1. YANG, Y.-s., J.-j. SHI, and Z.-g. HUANG, Experimental Research on the Carbon Fiber Reinforced Lightweight Aggregate Concrete (CFRLAC). Sci-Tech Information Development & Economy, 2007(7): p. 104.
  2. Park, S.B., E.S. Yoon, and B.I. Lee, Effects of processing and materials variations on mechanical properties of lightweight cement composites. Cement and concrete research, 1999. 29(2): p. 193-200.
  3. Saradar, A., et al., Restrained shrinkage cracking of fiber-reinforced high-strength concrete. Fibers, 2018. 6(1): p. 12.
  4. Xu, J.-J., et al., Recycled aggregate concrete in FRP-confined columns: a review of experimental results. Composite Structures, 2017. 174: p. 277-291.
  5. Nam, J., et al., Frost resistance of polyvinyl alcohol fiber and polypropylene fiber reinforced cementitious composites under freeze thaw cycling. Composites Part B: Engineering, 2016. 90: p. 241-250.
  6. Noushini, A., B. Samali, and K. Vessalas, Effect of polyvinyl alcohol (PVA) fibre on dynamic and material properties of fibre reinforced concrete. Construction and Building Materials, 2013. 49: p. 374-383.
  7. Rashad, A.M., The effect of polypropylene, polyvinyl-alcohol, carbon and glass fibres on geopolymers properties. Materials Science and Technology, 2019. 35(2): p. 127-146.
  8. Liu, H., et al., Basic mechanical properties of basalt fiber reinforced recycled aggregate concrete. The Open Civil Engineering Journal, 2017. 11(1).
  9. Gao Jinbao.Experimental research and application of carbon fiber permeable concrete[J].Journal of Jiamusi University (Natural Science Edition),2019,37(06):871-873+877
  10.  Zhang Yuwu. Research on static and dynamic mechanical properties of UHMWPE fiber concrete[D]. National University of Defense Technology, 2014.
  11. Zhang Guangtai,Zhang Mei,Zhang Luyang,Cao Yinlong,Chen Yong.Prediction of shear capacity of fiber reinforced concrete beams based on Bayesian probability model[J].Bulletin of the Chinese Ceramic Society,2020,39(03):770-778.
  12. 张明飞,王立娜,徐永浩,饶碧玉,熊凯,郭延辉.二次纤维水泥土力学特性研究[J/OL].河北工业科技:1-8[2020-06-03].
  13. 王建超,陆佳韦,周静海,梅长周.碳纤维再生混凝土力学性能的试验研究[J].混凝土,2018(12):95-99+103.
  14. 李京军牛建刚,张缜.塑钢纤维含量对轻骨料混凝土力学性能的影响[J].四川建筑,2015,35(01):231-233.
  15. 张胜利.钢纤维混凝土纤维分布与力学性能关系试验研究及数值仿真[D].太原理工大学,2018.
  16. 张其勇,李茂国,张树荣.碳纤维透水混凝土制备与性能研究[J].砖瓦,2020(05):102-103.