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VOL. 9, ISSUE 2 (2025)
Performance and durability of innovative sustainable materials in construction applications
Authors
Kokate Pravin Pandurang, Dr. Ruchi Chandrakar
Abstract
The industrial region of Pithampur in Indore
(M.P.) was the source of all the components used in the samples. With a 1.36%
increase in compressive strength, a 6% increase in split tensile strength, and
a 5.1% increase in flexural strength, composite high-performance concrete using
50% manufactured sand is more cost-effective and environmentally friendly than
conventional high strength concrete. Composite high-performance concrete that
has silica fume and iron filing added to it has a compressive strength that is
4.9% higher than conventional high-strength concrete, a split tensile strength
that is 7.8% higher, and a flexural strength that is 10.1% higher. Research
indicates that the compressive strength, split tensile strength, and flexural
strength may be enhanced by 2.73 percent, 15.7 percent, and 10.5 percent,
respectively, when iron filing and silica fume are combined in a composite
form.
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Pages:17-22
How to cite this article:
Kokate Pravin Pandurang, Dr. Ruchi Chandrakar "Performance and durability of innovative sustainable materials in construction applications". International Journal of Advanced Engineering and Technology, Vol 9, Issue 2, 2025, Pages 17-22
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