Comparative Study of Steel, Bamboo and Glass Fiber as reinforcing material in Concrete Beams : A Review

Authors

  • Anand Kumar Department of Civil Engineering, Rungta College of Engineering and Technology, Bhilai, Chhattisgarh, India Author
  • Jayant Supe Department of Civil Engineering, Rungta College of Engineering and Technology, Bhilai, Chhattisgarh, India Author

DOI:

https://doi.org/10.32628/IJSRCE

Keywords:

Flexural, UTM, Tensile Strength, Bamboo, Fiber, Loading, Flexural Strength

Abstract

Concrete is the most principally utilized material in the development field took after by steel as reinforcements. The present day situation is seeing a quick change in the building material industry and step by step new innovations are supplanting the ordinarily utilized materials. Scientists everywhere throughout the world are endeavoring to enhance concrete by the utilization of fibers, pozzolanas and different admixtures. Steel is given in the pressure side fundamentally in order to balance the powerless zone of concrete that is Tension. In spite of the fact that it is thought to be the best for this work yet at the same time it gets eroded by the activity of the nature in this way, emerges the point of searching for an option. A standout amongst the most well-known choices is Fiber strengthened polymer rebars (FRP's). In the present trial examination supplanting of Ordinary Concrete with Glass fiber and bamboo fiber Reinforced Concrete along these lines considered on the progressions of Compressive Strength and Ultimate Crushing loads In This study e are reviewing publications related to advancement in concrete technology and development.              

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References

Pannirselvaw, Wu, Z.S. and Serker, N.H.M.K. (2009) Assessment of Vibration Based Damage Identification Methods Using Displacement and Distributed Strain Measurements. International Journal of Structural Health Monitoring, vol 33, Issue 3227, pp.443-461.

Bukhari, raman and Raheem, A.A. (2010) Adaptation of Vibration-Based SHM for Condition Assessment and Damage Detection of Civil Infrastructure Systems. LAUTECH Journal of Engineering & Technology, vol.12, Issue 321, pp. 1-11.

Kim and frangopol (2011) Vibration-Based Damage Localization in Flexural Structures Using Normalized Modal Macrostrain Techniques from Limited Measurements. Computer-Aided Civil and Infrastructure Engineering, vol. 19, Issue 3224, pp.154-172.

Adewuyi, A.P. and Ola, B.F. (2005) Application of Waterworks Sludge as Partial Replacement for Cement in Concrete Production. Science Focus Journal, vol 32, Issue 30, pp 123-130.

Adewuyi, A.P. and Adegoke, T. (2008) Exploratory Study of Periwinkle Shells as Coarse Aggregates in Concrete Works.Journal of Engineering and Applied Sciences, vol 25, Issue 154 pp1-5.

Basu, P.C., Shylamoni P. and Roshan A.D. (2004) Characterization of Steel Reinforcement for RC Structures: An Overview and Related Issues. Indian Concrete Journal, vol 12, Issue 23, pp 19-30.

Justin Norvell, K. (2007) “Influence of Clays and Clay-Sized particles on Concrete Performance”, Journal of materials in Civil Engineering, ASCE, vol 18, Issue 3225, pp. 1053-158.

Jaafar, M.S. (2002) “Strength and durability characteristics of high strength autoclaved stone dust concrete”, The Indian Concrete Journal, vol. 17, Issue 23, 202-206.

Kosmatka, S.H., Kerkhoff, B. and Panarese, W.C. (2003) Design and Control of Concrete Mixtures. 14th Edition. Portland Cement Association, Skokie, vol.17, Issue 34, pp 22-26.

Andonian, phillips and M.J. George (2015) “Design guide for applications of sandstone quarry sand in South Wales”, Virigis Report VR8, TRL Limited.vol.20, Issue 2023, pp 35-41.

Luiz Antonio Pereira de Oliveira, João Paulo de Castro Gomes, Cristiana Nadir Gonilho Pereira,( 2006)"Study of sorptivity of self-compacting concrete with mineral additives" Journal of Civil Engineering and Management, vol 12, issue 3, pp 215–220.

Mehta, P.K. and Monteiro, P.J.M. (2006) Concrete: Microstructure, Properties, and Materials. 3rd Edition. McGraw-Hill, New York.

Nigarwal, W.H., Bungey, J.H. and Hulse, R. (2016) Reinforced Concrete Design. 5th Edition, Macmillan Education Li mited, Houndmills, Basingstoke, vol. 23, Issue 3323, pp 67-72.

Mageswari M. and VidivelliB. (2010),The use of Sheet Glass Powder (SHP) as Fine Aggregate Replacement (FAR) in concrete,Open Civil Engin. J., 4(1), vol.21, Issue 453, pp 65-71,

Mannesh, Joel and akinyeleet (2015) Use of crushed granite fine as replacement to river sand in concrete production, Leonardo Electr. J. Pract.Technol., vol.17, Issue 32, pp1-14.

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Published

30-09-2020

Issue

Section

Research Articles

How to Cite

Kumar, A., & Supe, J. (2020). Comparative Study of Steel, Bamboo and Glass Fiber as reinforcing material in Concrete Beams : A Review . International Journal of Scientific Research in Civil Engineering, 4(5), 137-142. https://doi.org/10.32628/IJSRCE

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