The Mechanical Behavior of Sustainable Concrete Using Raw and Processed Sugarcane Bagasse Ash
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Date
2022-09
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
MDPI AG
Series Info
Sustainability 2022,;14, 11181.
Scientific Journal Rankings
Abstract
Sugarcane Bagasse Ash (SCBA) is one of the most common types of agricultural waste. By its
availability and pozzolanic properties, sugarcane bagasse ash can be utilized as a partial replacement
for cement in the production of sustainable concrete. This study experimentally investigated the
impact of employing two types of sugarcane bagasse ash as a partial substitute for cement up to 30%
on the compressive strength, flexural strength, and Young’s modulus of the concrete mixture. The first
type of bagasse ash used was raw SCBA, which was used as it arrived from the plant, with the same
characteristics, considering that it was exposed to a temperature of 600 ◦C in the boilers to generate
energy. The second type of bagasse ash utilized, called processed SCBA, was produced by regrinding
raw SCBA for an hour and then burning it again for two hours at a temperature of 600 ◦C. This was
done to improve the pozzolanic activity and consequently the mechanical properties of the concrete
mixture. The findings indicated that employing raw sugarcane bagasse ash had a detrimental effect
on the mechanical characteristics of the concrete mixture but using processed sugarcane bagasse
ash at a proportion of no more than 10% had a considerable effect on improving the properties
of the concrete mixture. The utilization of processed SCBA up to 10% into the concrete mixture
resulted in a 12%, 8%, and 8% increase in compressive strength, flexural strength, and Young’s
modulus, respectively, compared to the normal concrete specimen. On the contrary, the inclusion of
raw SCBA with varying content into the concrete mixture decreased compressive strength, flexural
strength, and Young’s modulus by up to 50%, 30%, and 29%, respectively, compared to the normal
concrete specimen. The experimental findings were validated by comparison with ACI predictions.
ACI overestimated the flexural strength of SCBA concrete specimens, with a mean coefficient of
difference between the ACI equation and experimental results of 22%, however, ACI underestimated
the Young’s modulus of SCBA concrete specimens, with a mean coefficient of difference between the
ACI equation and experimental results of −6%.
Description
Keywords
sustainable concrete, sugarcane, bagasse ash, compressive strength, flexural strength, Young’s modulus