Study of the Physic-Mechanical Properties of a Typha Concrete Composites: A Possible New Material for Sustainable Construction

Abstract

Natural fibers have garnered considerable attention from researchers and academics alike due to their eco-friendly nature and sustainability. These fibers are being explored for their potential use in polymer composites. The use of natural fiber-reinforced polymer composite materials is rapidly increasing in both industrial and fundamental research applications due to their renewable, low, and biodegradable properties. In order to reduce the CO2 emissions, the building energy consumption and preserve the natural sand. The present study involved conducting an analysis of the results obtained from the experimental investigation where five mixtures of typha fiber sand, and cement (MHC0, MHC5, MHC10, MHC15 and MHC20)) were utilized to make Typha-concrete. The experimental mixtures being examined and the results indicate that the density of the samples diminishes in proportion to the incorporation of typha fiber, while the thermal conductivity is enhanced. In addition, the characteristics of lightweight structures can be attributed to the generated specimens, which have been determined by their documented compressive strength. Based on the results of RILEM's functional classification analysis, it can be concluded that Typha-concrete meets the mechanical and thermal requirements of construction materials, making it a feasible option for both structural and insulating concrete applications.