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ABSTRACT
The lightweight foamed concrete (LWFC) applications in the
structural building are so restricted due to its low strength and brittleness.
The experimental work of this study includes two parts: the first involves
improving the mechanical properties for the LWFC using additives and
fibers. Eleven mixes were cast and tested for 7compressive 7strength,
splitting7 tensile7 strength, flexural 7strength, and 7modulus of elasticity7
with target density 1800 kg/ . Two types of fibers were added to LWFC
mix, which were steel fiber, and polypropylene fiber, and hybrid fibers
(steel+ polypropylene). The test results showed that the fibers addition
into the LWFC mix decreases the flowability and enhance the mechanical
properties. The hybrid fibers mixed with (0.4%+ 0.2%) of (steel+
polypropylene) fibers gave the best results and used in casting the
reinforced concrete beams.
The second part of this work is the experimental study of the
behavior of reinforced (Lightweight foamed, Normal) concrete beams
using Glass Fiber Reinforced Polymer (GFRP) bars as the main
reinforcement under two point flexural loads. This part includes twelve
beams with dimensions (200mm x 250 mm x 1500 mm), divided into two
groups: six of lightweight foamed concrete and six of normal concrete
beams. For each group: three beams reinforced with GFRP bars in three
different reinforcement ratios, two beams reinforced with hybrid
ii
(GFRP+steel) reinforcements, and one beam reinforced with steel bars for
comparison
The main variables considered are the concrete type
(Lightweight foamed concrete, Normal concrete), reinforcement type
(GFRP bars, Steel bars), and GFRP reinforcement ratio. The main
parameters considered in this stage of experimental work are the ultimate
load capacity, deflection, cracks width, concrete strain, and main
reinforcement strain at mid-span length. Therefore, the experimental
serviceability limitation, load-deflection curve, load-main reinforcement
strain curve, load-concrete strain curve, load-neutral axis depth, ductility
index and deformability factor are prepared for all tested beam.
The service load is 35% of the ultimate load for each tested
beams. At the service load, the stiffness of GFRP reinforced lightweight
foamed concrete beams was less than that of the normal concrete beams,
thus the deflection of LWFC beams was higher than the deflection of
normal concrete beams. According to the ductility index, the
deformability factor of lightweight foamed concrete7 beams7 is more than
that of normal concrete beams.
The experimental test results of ultimate load, deflection and 7crack width7
for all 7tested 7beams were compared with that estimated by ACI 440.1R-
06 and ACI 318M-14 models. The comparison showed a good agreement
between the experimental and predicted results such as increasing the
reinforcement ratio and increasing the steel ratio in the hybrid reinforcing
GFRP/steel. The ratio of predicted results to the experimental results was
(1.1) at service load. |
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