Experimental Study of Glass Fiber Reinforced Concrete With Precast SIFCON Laminate

Authors

  • A. Venkatesh Assistant Professor, Department of civil engineering, Mepco Schlenk Engineering College,Sivakasi Tamilnadu, India Author
  • K. Kannan PG Student, Department of civil engineering, Mepco Schlenk Engineering College,Sivakasi Tamilnadu, India Author

Keywords:

Precast SIFCON, GFRC Beam, Flexure, M Sand, Fiber Reinforced Concrete

Abstract

RC structures maybe damaged or collapsed because of sustaining additional loads such as seismic load, change in live load etc. Retrofitting is one of the best solution to avoid the collapse of the structure. In this paper the beam is retrofitted by precast slurry infiltrated fibrous concrete. It is a type of high performance fiber reinforced concrete made by infiltrated Glass fiber bed with a specially designed cement based slurry. In this paper M sand is used for fine aggregate. The experimental program is to be done to access the flexural behavior of the strengthened conventional and GFRC. The flexural behavior is to be analyzed by two-point loading test.              

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References

Andrzej M. Brandt "Fiber reinforced cement based (FRC) composites after over 40 years of development in building and civil engineering" Elsevier journal of composite structure 86 (2008) , 3-9

ASTM C 801, Standard Test Method for Determining the Mechanical Properties of Hardened Concrete under Triaxial Loads, Annual book of ASTM Standards, American Society for Testing Materials, West Conshohocken, PA, 2005.

Bai JW, Hueste MB. Seismic rehabilitation for reinforced concrete building structures, Consequence-Based Engineering (CBE) Institute final report. Mid- America Earthquake Center, Texas A&M University; 2003.

C.S. Poon, Z.H. Shui, L. Lam, Compressive behavior of fibre reinforced high performance concretre subjected to elevated temperatures, Cem. Concr. Res. 34 (12) (2004) 2215-2222.

D.A. Fanella, A.E. Naaman, Stress-strain properties of fiber reinforced mortar in compression, ACI J. 82 (4) (1985) 475-483.

E. Hoek, E.T. Brown, Underground excavations in rock, Institution of Mining and Metallurgy Press, London, 1980.

FIB-International Federation for Structural Concrete. Seismic assessment and retrofit of reinforced concrete buildings. State-of-art, report. Stuttgart: Sprint- Digital-Druck; 2003.

J. Linhua, H. Dahai, X. Nianxiang, Behavior of concrete under triaxial Compressive- Compressive-Tensile Stresses, ACI Mater. J. 88 (2) (1991) 181-185.

J.C. Chern, H.J. Yang, H.W. Chen, Behaviour of steel fibre reinforced concrete in multiaxial loading, ACI Mater. J. 89 (1) (1992) 32-40.

Lankard, D.R. 1984. Preparation and Applications of Slurry Infiltrated Fibrous Concrete (SIFCON). Concrete International, 12(6), 44-47.

Maa R, Xiao Y, Lib KN. Full-scale testing of a parking structure column retrofitted with carbon fiber reinforced composites. Constr Build Mater 2000;14(2):63-71

Miyauchi K, Inoue S, Kuroda T, Kobayashi A. Strengthening effects of concrete column with carbon fiber sheet. Trans Jpn Concr Inst 2000;21:143-50.

Naaman AE. HPFRCCs: properties and applications in repair and rehabilitation ACI SP 85. American Concrete Institute, MI, USA; 2000. p. 1-16.

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Published

25-04-2017

Issue

Section

Research Articles

How to Cite

Venkatesh, A., & Kannan, K. (2017). Experimental Study of Glass Fiber Reinforced Concrete With Precast SIFCON Laminate . International Journal of Scientific Research in Civil Engineering, 2(2), 16-19. https://ijsrce.com/index.php/home/article/view/IJSRCE182203

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