Journal of Polymer & Composites

Cement composites are the most used composites in the world. In modern day construction practice, repair and rehabilitation of structures has taken an important role. The brittleness of cement composites can be reduced by reinforcing it with fibres for better shear and flexural behaviour of composites. This research work targets n experimental and analytical evaluation of the mechanical properties of fibre reinforced cement-sand composites. The effect of fibres on Compressive strength, Shear Strength and flexural strength were analysed. According to the results of this study, certain amount of fibres enhances the mechanical properties of the fibre reinforced cement-sand composites.

Chin C.S., Nepal B. (2019) Material Properties of Agriculture Straw Fibre-Reinforced Concrete. In: Achal V., Mukherjee A. (eds) Ecological Wisdom Inspired Restoration Engineering. EcoWISE (Innovative Approaches to Socio-Ecological Sustainability). Springer, Singapore

Badagha D. G., “State of The Art -Strengthening And Rehabilitation of Structure Using Carbon Fibre”, proceeding SEC-2012, December 2012.

Barhum Rabea, Mechtcherine Viktor, “Effect of short, dispersed glass and carbon fibres on the behavior of textile-reinforced concrete under tensile loading”, Engineering Fracture Mechanics 92, pp.56–71, 2012.

Barluenga G., Hernandez-Olivares F., “Cracking control of concretes modified

with short AR-glass fibres at early age. Experimental results on standard concrete and SCC”, Cement and Concrete Research 37, pp. 1624–1638, (2007)

P. Rathish Kumar∗ and K. Srikanth “Mechanical characteristics of fiber reinforced self-compacting mortars”, Asian Journal of Civil Engineering (Building and Housing) VOL. 9, NO. 6 (2008) PAGES 647-657

Prof. Dr. K N Vishwanath1 , Prof. Lakshmi H S, “Performance Evaluation And Strength Augmentation Of Cement Mortar Einforced With Treated Jute Fibre: A Review”, International journal of Advanced research in Science and Engineering, Vol. 6, Issue 7, July 2017, 346-352

IS 4031(Part 6):1988 Methods of physical tests for hydraulic cement: Part 6 Determination of compressive strength of hydraulic cement (other than masonry cement)

Bairagi N.K. and Modhera C.D., "Shear Strength reinforced concrete" ICI, Jan-March 2001, pp. 47-52.

Willam,K. J. and Warnke, E. P. (1975), “Constitutive models for the triaxial behavior of concrete”, Proceedings of the International Assoc. for Bridge and Structural Engineering, vol. 19, pp. 1-30.

Rots J G and Blaauwedraad J (1989) ‘Crack Models for Concrete: Discrete Or Smeared? Fixed, Multi-Directional or Rotating? HERON, vol. 34 1989 no. 1

Analytical and numerical solutions to structural strengthening of beams by plate bonding 222 P S LUKE Strengthening of reinforced concrete structures Published by Woodhead Publishing Limited, Abington Hall, Abington Cambridge CB1 6AH, England 1999, 222-241