Specimen No. 3 w/c Ratio 0.4 0.6 0.8 Deformation (in.) Load (kips) 0.012 124 82 62 0.024 195 (failure) 110 79 0.036 102 (failure) 68 0.048 51 (failure)
Three 6 in. * 12 in. concrete cylinders with water to cement ratios of 0.4, 0.6,and 0.8, respectively. After curing for 28 days, the specimens were subjected to increments of compressive loads until failure. The load versus deformation results were as shown in Table .
Assuming that the gauge length is the whole specimen height, it is required to
do the following:
a. The compressive stresses and strains for each specimen at each load
increment.
b. Plot stresses versus strains for all specimens on one graph.
c. The ultimate strength for each specimen.
d. The modulus of elasticity as the secant modulus at 40% of the ultimate
stress for each specimen.
e. The strain at failure for each specimen.
f. The toughness for each specimen.
g. Comment on the effect of increasing the water–cement ratio on the
following:
i. Ultimate strength
ii. Modulus of elasticity
iii. Ductility
iv. Toughness. Curves may be approximated with a series of straight lines.
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