Abstract:
Concrete is an extensively used construction material in the world due to its
versatility and ready availability. Many structures have concrete as their
principal structural material and all concrete structures are exposed to the
environment. The environments within which concrete is also used vary widely
(cold to warm, dry to wet, repeated temperature and humidity changes, etc.), it
is a mistake to assume that any concrete are stable under all conditions. This
basic concept is often neglected, thus resulting in premature deterioration of
structural concrete components and products. This study was aimed to
investigate the effects of high-water temperatures on concrete properties. In
order to achieve the objective, an experimental study was carried out on fresh
and hardened concrete properties at mixing and curing water temperatures of
22 ℃ (control), 30 ℃, 38 ℃ and 46 ℃. 25 MPa concrete grade with a mix ratio
of approximately 1:2.2:2.9 having w/c of 0.56 was produced. Eighteen cubic
specimens for each mixing and curing water temperature using two cement
types were cast and tested for compressive strength after curing ages of 1, 3, 7,
28, 56 and 90 days; and each 3 cylindrical specimens were prepared and tested
for split tensile strength after curing age of only 28 days. Based on experimental
results, the specimens produced with lower mixing water temperature (at 22℃)
were better in their fresh properties than specimens with higher mixing water
temperatures (30℃, 38℃ and 46℃). Compressive strength test results showed
25% and 23% reduction after 90 days for OPC and PPC mixes at mixing and
curing water temperature of 46 ℃ respectively. During early ages, the highest
percentage increase in compressive strength was +17.18% after 1 day for OPC
and +17.29% after 3 days for PPC mixes at 46 ℃. Generally, the specimens
mixed and cured with higher water temperature showed better compressive
strength results during their early ages (1, 3 and 7 days) than the specimens
mixed and cured with lower water temperature. However, the specimens mixed
and cured with lower water temperature showed better compressive strength
results at their later ages (28, 56 and 90 days) than the specimens with higher
water temperatures. The enhanced workability and maximum long-term
compressive strength were obtained at mixing and curing water temperature of
22 ℃. Finally, it was recommended that concrete producers especially in hot
or arid environmental areas should give a special attention to such parameters;
hence a small parameter like water temperature could have impact on
performance of concrete.