Effect of elevated temperature on properties of neem seed husk ash concrete
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Date
2020-02
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NM-AIST
Abstract
High temperature rise mostly caused by fire is currently becoming a threat that endangers
concrete’s structural performance for buildings and the safety of dwellers. The behavior of
concrete after fire subjection has been of much interest for structural materials design
purposes. This study investigated the physical properties and the compressive strength of
cement - neem seed husk ash blended concrete exposed to elevated temperatures. The neem
seed husk ash was produced by calcining neem seed husks at 800 ℃ for 6 hours and then
sieved through the 125 μm sieve. The cement – neem seed husk ash blended concrete was
made by partially replacing cement with 3%, 5%, 7% and 10% of neem seed husk ash. The
strength of concrete employed is M25. One hundred and fifty concrete cubes of 150 mm sizes
were formed and appropriately cured by immersing in water for 7 and 28 days. The cured
concrete cube samples were then exposed to and through targeted different levels of
temperature; 25 ℃, 200 ℃, 400 ℃, 600 ℃ and 800 ℃, retained for 3 hours in an electric
furnace. It was observed that an optimal replacement of cement by 5% of neem seed husk ash
yields concrete with improved fire resistance. The experimental results indicate that the
compressive strength of the blended concrete (with 5% of neem seed husk ash) exposed to
temperatures up to 400 ℃ is 21.3% and 23.8% better than the normal concrete at 7 and 28
curing days respectively. Surface cracks and spalling are noticeable at 600 ℃ for all samples
considered in this study.
Keywords: Neem seed husk ash, Concrete, Elevated temperature, Spalling, Mass loss,
Compressive strength.
Sustainable Development Goals
A Dissertation Submitted in Partial Fulfillment of the Requirement for the Degree of
Master’s in Materials Science and Engineering of the Nelson Mandela African
Institution of Science and Technology