Paper Titles

Mechanical Properties Research on Concrete Block Doped Nano-TiO₂ under the Conditions of Common Conservation
p.9

Axial Compression Behaviors of Concrete Confined by Basalt Fiber Sheets
p.13

A Study on Structure and Properties of Basalt Fiber
p.17

Study of Road Property of Basalt Fiber Asphalt Concrete
p.22

A Review of Stee-Polypropylene Hybrid Fiber Reinforced Concrete
p.26

Experimental Study on Flexural Toughness of SFRC
p.33

Constitutive Model Based on Damage Mechanics of Fiber Reinforced Concrete (FRC): A Review
p.37

Experimental Study on Full Stress-Strain Curve of SFRC in Axial Tension
p.41

Study on Damage Evolution Mechanism of Concrete under Uniaxial Tension
p.46

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 238A Review of Stee-Polypropylene Hybrid Fiber...

A Review of Stee-Polypropylene Hybrid Fiber Reinforced Concrete

Article Preview

Abstract:

The steel-polypropylene hybrid fiber reinforced concrete can take full advantages of macro-scale crack resistance and toughening effect on the concrete matrix of steel and polypropylene fibers. The shortcomings of concrete are improved and there is a wide prospect application in engineering. This paper summarizes the enhancement theories of hybrid fiber reinforced concrete to explain its strengthening mechanism. The research status is reviewed including mix proportion design, working performance of fresh concrete, mechanical behaviors, durability (impermeability, shrinkage and others), and engineering applications etc. Some further researches are forecasted. It would be very useful to apply and popularize steel-polypropylene hybrid fiber reinforced concrete.

You might also be interested in these eBooks

Innovation in Civil Engineering, Architecture and Sustainable Infrastructure

Info:

Periodical:

Applied Mechanics and Materials (Volume 238)

Pages:

26-32

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.238.26

Citation:

Cite this paper

Online since:

November 2012

Authors:

Xiao Ke Li, Li Sun, Y.Y. Zhou, Shun Bo Zhao

Keywords:

Durability, Mechanical Behavior, Mix Proportion Design, Steel-Polypropylene Hybrid Fiber Reinforced Concrete, Strengthening Principle

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Z. Xu, Technology and Application of Fiber Reinforced Concrete, China Building Industry Press, Beijing, 2003.

[2] W. Sun, H. Qian, H. Chen, The effect of the combination of hybrid fibers and expansive agent on the physical properties of cementitious composites, Journal of the Chinese Ceramic Society, 2 (2000) 95-99.

[3] W. Yao, J. Cai, B. Chen, Study of high performance concrete reinforced hybrid fibers, Journal of Three Gorges University (natural science edition), 1 (2002) 21-23.

[4] G. Zhao, Steel Fiber Reinforced Concrete Structure, China Building Industry Press, Beijing, 1999.

[5] W. Cao, Talking about the characteristics and development prospect, Cement and Concrete, 6 (2008) 24-27.

[6] H. Wang, Experimental Study of Hybrid Steel-Polypropylene Fiber Concrete, Thesis for Master Degree, Northwestern Polytechnical University, 2005.

[7] F. Liu, Study on strength and composition of new patter reinforced high performance concrete, Concrete, 6 (2010) 112-133.

[8] J.Chen, Study on optimization of proportion of C40 pumping hybrid fiber reinforced concrete, Concrete and Cement Products, 6 (2006) 38-42.

[9] Z.Wang, An Orthogonal Experimental Study on High Performance Concrete of Steel- Propylene Hybrid Fiber, Journal of Engineering Institute of Jiaozuo, 1 (2003) 15-20.

[10] S. P. Singh, A.P. Singh and V. Bajaj, Strength and flexural toughness of concrete reinforced with steel-polypropylene hybrid fibers, Asian Journal Of Civil Engineering (Building and Housing), 4 (2010) 495-507.

[11] Information on http://scholar.google.com.

[12] CECS38:2004, Technical Specification for Fiber Reinforced Concrete Structures, China Plan Press, Beijing, 2004.

[13] Z. Wu, Study on Mechanical behavior and Applications of Basalt Fiber Reinforced Concrete, Thesis for Master Degree, Wuhan University of Technology, 2009.

[14] D. Gao, J. Zhao, H. Zhu, Design and Application of Steel Fiber Reinforced Concrete, China Building Industry Press, Beijing, 2002.

[15] H. Wang, Y. Chen, Q. Ding, S. Hu, The effect of hybrid fibers on the mechanical properties and impermeability of high-performance concrete, Concrete, 11 (2003) 33-35.

[16] B. Babal, T. Nurnbergerova, Hybrid fiber-reinforced concrete under repeated loading. Nuclear Engineering Design, 156 (1995) 195-200.

DOI: 10.1016/0029-5493(94)00945-u

[17] C. Yang, C. Huang, Y. Che, B. Wang, Mechanical properties and impermeability of hybrid fiber reinforced concrete, Journal of Building Materials, 1 (2008) 89-93.

[18] W. Yao, L. Jie, Keru Wu, Mechanical properties of hybrid fiber-reinforced concrete at low fiber volume fraction, Cement and Concrete Research, 33 (2003) 27-30.

DOI: 10.1016/s0008-8846(02)00913-4

[19] H. Sun, Z. He, A. Gong, The effect of hybrid fiber-reinforced concrete on mechanical properties and crack resistances, Concrete and Cement Products, 2 (2009) 48-51.

[20] K. Wang, Y. Zhang, X. Wang, Effect of smaller volume S-P hybrid fibers on mechanical properties of high performance concrete, Journal of Harbin Industry of Technology, 10 (2003) 1209-1211.

[21] C. Jiao, W. Sun, H. Qin, Experimental study on bending performance of high-strength concrete of steel-propylene hybrid fiber. Architectural Technology, 1 (2004) 48-50.

[22] C. Jiao, Z. Zhan, Experimental study on compressive strength performance of concrete of steel-propylene hybrid fiber, Journal of Guangzhou University, 4 (2007) 70-73.

[23] J. Zhao, X. Cai, H. Jiao, The effect of hybrid fibers on the early-age shrinkage of concrete. Journal of Harbin Industry of Technology, 2 (2007) 232-234.

[24] M. I. El-Hamrawy, A. M. Saba, Fracture energy of hybrid fiber reinforced concrete, Regional Conference on Civil Engineering Technology, 3 (2007) 232-234.

[25] S. Eswari, P. N. Raghunath, Regression modeling for strength and toughness evaluation of hybrid fiber reinforced concrete. Journal of Engineering and Applied Sciences, 5 (2011) 1-8.

[26] Marijan Skazlić, Development and application of hybrid fibre reinforced concrete, Second International Conference on Sustainable Construction Materials and Technologies, 2010.

[27] J. Sun, The performance study of polypropylene hybrid fiber concrete, Concrete, 11 (2003) 16-20.

[28] Y. Liu, W. Qiu, D. Li, The Shrinkage of steel-polypropylene hybrid fiber reinforced concrete, Materials Technology and Applications, 33 (2003) 27-30.

[29] Y. Hua, Y. Ceng, The durability experimental study of hybrid steel-polypropylene fiber concrete, Low Temperature Building Technology, 3 (1998) 18-20.

[30] G. Huang, Experimental study on resistance of sulfate and chlorine salt erosion performance about hybrid fiber concrete, Anhui University of Technology, 2010.

[31] X. Ma, Crack and freezing-thawing resistance of high performance concrete of steel-propylene hybrid fiber, Dalian University of Technology, 2006.

[32] Information on http://scholar.google.com.

[33] Information on http://cipremier.com/100030056.

[34] Information on http://www.claisse.info/specialabstracts.htm.