Abstract:
Concrete, as the world's most used construction material, is increasingly being used because of the rapid
development of industrialization and urbanization. Limited resources and progressive depravation of the
environment is forcing scientific efforts to seek alternative and effective materials from large amounts of
natural resources as additives in the partial replacement of cement and continuous generation of wastes
arising from industrial by-products and agricultural residue, create acute environmental problems both in
terms of their treatment and disposal.
The country has enormous amount of coffee husk and sawdust ash. However, the utilization of this coffee
husk ash and sawdust ash waste in concrete production provides significant benefits in terms of reducing
construction costs as well as greenhouse gas emissions. This research was therefore, aimed to examine the
potential of combination of coffee husk ash (CHA) and sawdust ash (SDA) as partial replacement and
additive for ordinary Portland cement (OPC) in C-20/25. Control and four different concrete mixes were
prepared for 25MPa concrete, 5%, 10%, 15% and 20% hybrid of CHA&SDA replacement of cement and
2% additive separately. Workability of fresh concrete using slump test and compressive test, split tensile
strength test and flexural test were performed.
From the experimental results, it was found that the replacement of coffee husk ash and sawdust ash reduces
workability of wet concrete. The results of the hardened concrete have shown that, up to 12% replacement
of the hybrid of CHA&SDA achieved a higher compressive strength, split tensile strength and flexural
strength at all test ages i.e. 7, and 28 days of age by test. It can therefore, be concluded that 12%
replacement of cement by hybrid of coffee husk ash sawdust ash results in a similar concrete property with
control test and it is the optimum replacement. This experimental investigation also aims to evaluate the
impact of using sawdust ash and coffee husk ash as additives (plasticizers) in concrete at a maximum dosage
of 2%. The study focuses on assessing the effect of these agricultural waste materials on the workability,
mechanical properties, and durability characteristics of the resulting concrete mixtures. The results
indicated that the inclusion of sawdust ash and coffee husk ash as additives of 2% had a positive influence
on the tensile strength of the concrete and setting time of concrete without significantly compromising its
mechanical properties. The slump values remained within an acceptable range, indicating good
workability. Moreover, compressive strength and flexural strength were maintained at satisfactory levels.
A detailed study on the source of SWDA & CHA on concrete mineralogy and properties must be performed
to fill the potential research gap.