Study on Bond Properties of BFRP Bars to Basalt Fiber Reinforced Concrete

Qiao Wei Bi; Qing Xiang Wang; Hui Wang

doi:10.4028/www.scientific.net/AMR.163-167.1251

Paper Titles

Research on Temperature Stress of Large-Area Concrete Beam-Slab Structure
p.1232

The Mechanics Behavior Study of Four-Cell Concrete Rectangle Liquid-Storage Structure under the Thermal Envirement
p.1236

Study on Mechanical Behavior of the Key Components of High-Level Transfer Frame-Shear Wall Structure with Viscous Dampers
p.1241

An Analytical Solution for the Elastic Moduli of Concrete with Interfacial Cracks
p.1247

Study on Bond Properties of BFRP Bars to Basalt Fiber Reinforced Concrete
p.1251

Study on Rupture Angle of Bulk Solid in Large Diameter Silos
p.1257

Damage Analysis Model for RC Members Based on Level of Material
p.1262

Measuring and Analysis of Local Stress under Anchorage of Continuous Rigid Frame Bridge
p.1268

Analysis on Effectiveness of Landslide Control Based on Internal Force Monitoring of Anti-Slide Piles
p.1274

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 163-167Study on Bond Properties of BFRP Bars to Basalt...

Study on Bond Properties of BFRP Bars to Basalt Fiber Reinforced Concrete

Abstract:

In order to study the bonding characteristic of the BFRP(Basalt Fiber Reinforced Plastics for short) bars and the basalt fiber reinforced concrete, the BFRP was embedded into the cubic concrete specimen which mixed the basalt fiber sized the edge length 150 mm. By changing the diameter of the BFRP, the bonding length of the BFRP and the basalt fiber volume content of the basalt fiber reinforced concrete, the experimental results indicate that the average bonding strength decreased while the bonding length increased and it become weaker while the diameter of the BFRP was bigger, and it shows the best effect of the bonding strength when its fiber content was 0.1% comparing with three kinds of fiber content. The bond-slip constitutive model of BFRP bar and the basalt fiber concrete corresponded to the continuous curve model.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 163-167)

Pages:

1251-1256

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.163-167.1251

Citation:

Cite this paper

Online since:

December 2010

Authors:

Qiao Wei Bi, Qing Xiang Wang, Hui Wang

Keywords:

Basalt Fiber Concrete, BFRP Bars, Bond, Slip

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] E.G. Xie and Z.Y. Li: Fiber Composites (In Chinese), (2003)(3): 15-18.

Google Scholar

[2] G. Wu and Z.S. Wu: The Fifth National Academic exchange of FRP (In Chinese). Forum Vol. (2007), pp.422-427.

Google Scholar

[3] Okelo, R., Yuan, R.L. : Journal of Composites for Construction, (2005)9(3): 203-213.

Google Scholar

[4] San-José, T.J., Manso, J.M. : Polymer Composites, (2006)27(3): 315-322.

Google Scholar

[5] Achillides, Z., Pilakoutas, K. : Journal of Composites for Construction, (2004) 8(2): 173-181.

Google Scholar

[6] Benmokrane, B., Zhang, B.R., Chennouf, A.: Construction and Building Materials, (2000) 14(3): 157-170.

Google Scholar

[7] CSA (Canadian Standard Association). CSA S806 02 Design and Construction of Building Components with Fibre Reinforced Polymers[S]. Canadian Standards Association International, Toronto, Canada. (2002).

DOI: 10.1201/9781003072089-52

Google Scholar

[8] W.C. Xue: Fiber Reinforced Plastics/Composite (In Chinese)，2003(5): 10-13.

Google Scholar

[9] F.S. Zhu and H.X. Zhang: Concrete (In Chinese)，2006(2): 12-15.

Google Scholar

[10] B. Wang and J.P. Ou etc: Low Temperature Architecture Technology (In Chinese)，2006(1): 39-41.

Google Scholar

[11] Eligehausen R, Popov E P, Bertero VV. : [Rep. No. 83/23, Engrg. Res. Ctr. (EERC)]. Calif: Univ. of California, Berkeley, (1983).

Google Scholar

[12] Malvar L J. : Rep. TR-2013-SHR, Naval Fac. Engrg. Service Ctr., Port Hueneme. Calif: (1994).

Google Scholar

[13] Consenza E, Manfredi G, Realfonzo R. : In: Proc. 2nd Int. RILEM Symp. (FRPRCS-2), L. Taerwe, ed, (1995).

Google Scholar

[14] D.Y. Gao, H.T. Zhu and J.J. Xie: Industrial Construction (In Chinese), 2003，33(7): 41一43.

Google Scholar