Chapter 10 - Concrete Construction O Flashcards
Concrete is produced from __________ cement, coarse and fine ___________ and ________.
Portland / aggregates / water
p 281
- Gravel, stone, sand or other inert materials used in concrete. These materials may be fine or coarse.
Aggregate
p 281
- Maintaining conditions to achieve proper strength during the hardening of concrete.
Curing
p 282
Hardening of concrete involves a chemical process known as ___________.
hydration
p 282
In __________, water combines with the particles of cement to form a microscopic gel.
hydration
p 282
As the concrete hardens, this gel gives off heat, which is known as the _______ of __________.
heat of hydration
p 282
Because hydration involves water, proper curing requires that the concrete be keep ________ until it reaches its desired strength.
moist
p 282
In addition to maintaining proper moisture, concrete that is curing must be maintained at the correct temperature, ideally between ____-____ *F.
50-70
p 283
Concrete that is cured at or above _____ *F will not reach its proper strength; concrete cured near freezing temperatures will harden more _________.
100 / slowly
p 283
In massive concrete structures the _______ ____ ___________ generated can adversely affect the final strength of the concrete.
heat of hydration
p 283
During the curing process concrete will _________ slightly. Theoretically, properly cured concrete continues to harden indefinitely at a gradual rate; however, normal design strength is reached after _____ days.
shrink / 28
p 283
- Ingredients or chemicals added to concrete mix to produce concrete with special characteristics.
Admixture
p 283
Like masonry, concrete is strong in _____________, but weaker in __________.
compression / tension
p 284
The ultimate compressive strength of concrete can be varied from _______ psi to _______ psi with the allowable stress used in design reduced by a factor of safety.
2500 / 6000
p 284
With ____________ reinforcing, steel bars are placed in the formwork and the wet concrete is placed in the formwork around the bars.
ordinary
p 284
The diameters of standard size reinforcing bars vary from _____ inches to ______ inches.
.375 / 2.257
p 284
Concrete beams are frequently cast in the shape of a _____.
tee
p 284
Ordinary reinforcing
The compressive forces in a column could be great enough to cause the steel reinforcing bars to _________ even though they are imbedded in the concrete. To avoid possible buckling, _________ reinforcing is provided around the vertical bars.
buckle / lateral
p 286
In ____________, a compressive force is induced in the concrete before the load is applied.
prestressing
p 286
Prestressing reinforcing
The preloading of the steel creates ____________ stresses in the concrete that counteract the __________ stresses that result when the loads are applied.
compressive / tensile
p 286
Prestressing reinforcing
To compensate for loss of load carrying capacity, the _________ that are initially applied in the prestressing process are slightly higher than the __________ theoretically needed to support the concrete and the applied loads.
forces / forces
p 286
There are two methods of prestressing concrete. These are _______________ and _____________.
pretensioning and postensioning
p 286
In ____________ concrete, steel strands are stretched between anchors producing a ___________ force in the steel. Concrete is then placed around the steel strands and allowed to harden. After the concrete has hardened sufficiently, the force applied to the steel strands is ___________. As the force on the strands is released, the strands exert a _____________ force in the concrete.
pretensioned / tensile / released / compressive
p 286
Pretensioning
When steel strands are released, the concrete member usually takes on a slight ___________ deflection. As loads are applied to the pretensioned member, the deflection usually disappears and the member becomes _______.
upward / flat
p 286