Investigation of mechanical and durability properties of brick powder-added White Cement composites with three different fibers
Abstract
Traditional Portland Cement is used extensively in the construction industry today. Portland Cement has a gray
color and has been explored with numerous substitutes. With the increasing interest in concrete technology, the
interest in composite materials with higher performance and strength has gained more importance. White
Cement (WC) is an important cement type in this field. However, studies of substitute materials for White Cement
are limited and more research is needed. In this study, while White Cement and clay brick powder (CBP) were
substituted at three different rates (5%, 10%, and 15%), three different fibers (copper-coated (CC) steel fiber,
crimped (C) steel fiber, and basalt (B) fiber) were used at the ratio of 0.4% to examine the effect of fibers at the
same time. The compressive and flexural strengths of the prepared series were investigated for 28 and 90 days.
Three different durability tests were applied after 90 days: elevated-temperature test (250, 500, and 750 ◦C),
freezing-thawing test (90 cycles), and sulfate effect (90 days). Following the durability tests, weight and strength
values were compared. In addition, SEM and XRD analyzes were made while making comparisons before and
after the durability test of the samples and a visual examination was made in the durability conditions. The use of
5% brick powder increased the strength values due to the formation of C-A-S-H and C-S-H gels due to its higher
Al2O3 and SiO2 content, while the use of higher brick powder caused a decrease in strength. While the fibers
contributed positively to the strength values, the highest increase was in the longer crimped steel fiber added
sample and the lowest increase was in the shorter copper-coated steel fiber added sample. While there was a 13%
increase in compressive strength in the crimped steel fiber and 5% brick dust added sample compared to the
control sample, there was a 21% increase in flexural strength. As a result of the durability tests, the samples
behaved in similar order and maintained their stability despite significant losses.
Volume
347Collections
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