References
- C. Bing and L. Juanyu. Mechanical properties of polymer-modified concretes containing expanded polystyrene beads. Construct Build Mater. 2007, 21, 7–11.
- A.M. EL – Dakroury. Mechanical and chemical properties of polyvinyl alcohol modified cement mortar with silica fume used as matrix including radioactive waste, Arab J Nucl Sci Appl. 2014, 47(2), 44–53.
- T. Shafana and R. Venkatasubramani. “A study on the mechanical properties of concrete with partial replacement of fine aggregate with sugarcane bagasse ash”. Int J Adv Struct Geotech Eng. 2014, 03(01), 2319–5347.
- S.B. Park, B.C. Lee, J.H. Kim. Studies on mechanical properties of concrete containing waste glass aggregate. Cement Concr Res, 2004, 34, 2181–2189.
- V. Priya, E.T. Thachil. “Properties of polyvinyl alcohol cement composites”. Materials and Structures. 2007, 41(1), 123–130.
- C.M. Ravikumar, K. Sreenivasa, M.H. Abdulraheem, M. Prashanth & S.R. Vijay. (2013): “Experimental studies on strength and durability of mortars containing pozzolonic materials” International journal of advanced structures and geotechnical engineering ISSN 2319-5347, vol. 02, no. 02
- B. Debska, L. Lichola. Analysis of bending strength of resin mortars that are at risk of long-term exposure to environmental corrosives. IOP Conf. Series: Earth Environ Sci. 2017, 95, 042015.
- N. Priya, A, Paul. “Investigations into the preparation and properties of phenolic resin cement concrete”. Adv Polym Technol. Kochi, India, 74–81.
- M. Saxena, R.K. Morchhale, P. Asokan, B.K. Prasad. Plant fibre-industrial waste reinforcedpolymer composites as a potential wood substitute material. J Compos Mater. 2008, 42(4), 367–384.
- L. Evangelista, J.D. Brito. Mechanical behavior of concrete made with fine recycled concrete aggregate. Cement Concr Compos. 2007, 29, 397–401.
- K Rakesh. A review on epoxy and polyester based polymer concrete and exploration of polyfurfuryl alcohol as polymer concrete. J Polym. 2016, 3, 234.
- R.S. Odera, O.D. Onukwuli, J.T. Nwabanne. Experimental evaluation of Raffia palm fibre ash particles modified polyester cement mortar composites. J Chin Adv Mater Soc. 2016, 4(1), 70–81.
- M. Besma. Fahad effect of unsaturated polyester on some properties of cement mortar. J Eng Sustainable Dev. 2017, 21(03), 156–166.
- A, Litvin. Report to wire reinforcement institute on properties of concrete containing polypropylene fibres. construction polypropylene fibres. Construct Technol Lab, Portland Cement Assoc. 1985, 64, 135–140.
- A.J. Al-Tayyib, M.M. Al-Zahrani, Rasheeduzzafar, G.J Al-Sulaiman. effect of polypropylene fibre reinforcement on the properties of fresh and hardened concrete in the Arabian Gulf environment. Cem.Concr. Res. 1988, 18(4), 561–570.
- R.S. Odera, O.D. Onukwuli, E.C. Osoka Tensile and compressive strength characteristics of raffia palm fibre-cement composites. J Emerg Trends Eng Appl Sci (JETEAS). 2011, 2(2), 231–234.
- Standard Specification for Portland Cement. ASTM C-150, Annual Book of ASTM Standards, Vol. 04.0 I, Cement, Lime and Gypsum, American Society for Testing and Materials, West Conshohocken, PA. 1999.
- I. Miller, J.E Freund. Probability and statistics for engineers. India: Prentice Hall India Ltd, 2001, 125-140.
- O.J. Eze-Uzomaka, O.O. Nwadiuto. Appraisal of coir fiber-cement mortar composite for low cost roofing purposes. Afr J Sci Tech. 1990, 8(1), 6–15.