CREEP IN CONCRETE:-
Concrete creep is defined as:
deformation of structure under sustained load. Basically, long term pressure or
stress on concrete can make it change shape. This deformation usually occurs in
the direction the force is being applied. Like a concrete column getting more
compressed, or a beam bending.
Creep does not necessarily cause
concrete to fail or break apart. Creep is factored in when concrete structures
are designed.
Factors Affecting Creep:-
- Aggregate
- Mix
Proportions
- Age
of concrete
i). Influence of Aggregate:-
Aggregate undergoes very little
creep. It is really the paste which is responsible for the creep. However, the
aggregate influences the creep of concrete through a restraining effect on the
magnitude of creep. The paste which is creeping under load is restrained by
aggregate which do not creep. The stronger the aggregate the more is the
restraining effect and hence the less is the magnitude of creep. The modulus of
elasticity of aggregate is one of the important factors influencing creep.
It can be
easily imagined that the higher the modulus of elasticity the less is the
creep. Light weight aggregate shows substantially higher creep than normal
weight aggregate.
ii). Influence of Mix Proportions:-
The amount of paste content and
its quality is one of the most important factors influencing creep. A poorer
paste structure undergoes higher creep. Therefore, it can be said that creep
increases with increase in water/cement ratio. In other words, it can also be
said that creep is inversely proportional to the strength of concrete. Broadly
speaking, all other factors which are affecting the water/cement ratio are also
affecting the creep.
3. Influence of Age:-
Age at which a concrete member is
loaded will have a predominant effect on the magnitude of creep. This can be
easily understood from the fact that the quality of gel improves with time.
Such gel creeps less, whereas a young gel under load being not so stronger
creeps more. What is said above is not a very accurate statement because of the
fact that the moisture content of the concrete being different at different age
also influences the magnitude of creep.
Effects of Creep on Concrete and Reinforced Concrete:-
- In
reinforced concrete beams, creep increases the deflection with time and
may be a
critical consideration in design. - In
eccentrically loaded columns, creep increases the deflection and can load
to buckling.
- In
case of statically indeterminate structures and column and beam junctions
creep may relieve the stress concentration induced by shrinkage,
temperatures changes or movement of support. Creep property of concrete
will be useful in all concrete structures to reduce the internal stresses
due to non-uniform load or restrained shrinkage.
- In
mass concrete structures such as dams, on account of differential
temperature conditions at the interior and surface, creep is harmful and
by itself may be a cause of cracking in the interior of dams. Therefore,
all precautions and steps must be taken to see that increase in
temperature does not take place in the interior of mass concrete
structure.