dc.description.abstract |
Concrete is a manmade material which is used for civil engineering construction and is
preferred all over the world because of its advantageous properties like good
compressive strength, high mould ability, and durability. Despite its advantages,
concrete has some undesirable properties like weak in tension, brittleness, less resistance
to cracking and heavy weight. Dwindling stocks have also been reported due to the over
exploitation of the natural resources used in making conventional concrete. However,
efforts have been made in finding alternatives to the traditional materials and to improve
concrete properties. Research has shown that concrete properties can be improved by
industrial, agricultural and domestic wastes such as plastics, sugar cane bagasse ash and
so many others. Polyethylene Terephthalate (PET) fibers are used to improve fatigue
strength and increase tensile strength. Sugar cane bagasse ash, from its chemical
composition has exhibited pozzolanic properties and hence can be used to partially
replace cement in order to improve concrete properties. In this study, the mechanical and
physical properties of Plastic Fiber Reinforced Concrete were investigated with partial
replacement of ordinary cement with Sugar cane bagasse ash by 0%, 10% and 15% by
proportion of weight of cement and PET fibers were incorporated in the mixes at
different percentage. An experimental analysis with a mix ratio of 1:2:3 for cement: fine
aggregates: coarse aggregates with a constant water to cement ratio of 0.57 was used.
The PET fibers were obtained by shredding the PET bottles that were collected from
nearby restaurants and dustbins, into rectangular strips of 35mm length, 5mm width and
0.2mm thickness with an aspect ratio of 7, they were incorporated in to the mix at
percentages of 1%, 2% and 3% of the weight of cement. Physical tests: workability on
fresh concrete and water absorption on hardened concrete of each batch was carried out
at 28 days. Mechanical tests like density of concrete, compressive strength and splitting
tensile strength were carried out on hardened concrete at 7 days and 28 days of curing.
The results showed that there was an improvement in splitting tensile strength and
compressive strength at 10%SCBA substitution and 1%PET fibers but reduced on
further addition of both PET fibers and SCBA substitution. |
en_US |
dc.description.sponsorship |
Prof. Raphael. N. Mutuku
Faculty of Engineering and Technology, Technical University of Mombasa, Kenya,
Dr. John. N. Mwero
Department of Civil and Construction Engineering, University of Nairobi, Nairobi,
Kenya |
en_US |