2. The usefulness of fiber reinforced concrete (FRC) in various civil
engineering application is indisputable
Fiber reinforced concrete has so far been successfully used in
construction of structures
Brief state art report on mechanical properties and durability of
fiber reinforced concrete with the replacement of fine aggregate
Based on the trail mixes we could predict the percentage of
replacement and minimization of fine aggregate with silica fumes ad
fly ash in FRC
3. Concrete is a composite material composed of coarse granular
material .
Embedded particles or fragments of aggregates.
There are many different kinds of concrete.
Essential component of modern concrete.
Widely used construction material in the world.
5. EXCELLENT RESISTANCE TO WATER.
HIGH TEMPERATURE RESISTANCE .
ABILITY TO CONSUME WASTE.
ABILITY TO WORK WITH REINFORCING
STEEL
6. POLYPROPYLENE FIBRE REINFORCED
CONCRETE
AIM
OBJECTIVE AND SCOPE OF INVESTIGATION
7. BEHAVIOUR OF POLYPROPYLENE FIBRE
REINFORCED RICE HUSK ASH CONCRETE DEEP
BEAMS IN FLEXURE AND SHEAR.
FLEXURAL BEHAVIOR AND DUCTILITY OF
REINFORCED LIGHTWEIGHT CONCRETE BEAMS
WITH POLYPROPYLENE FIBER
8. FRACTURE PROPERTIES OF POLYPROPYLENE FIBER
REINFORCED CONCRETE CONTAINING RICE HUSK
ASH AND SILICA FUME.
FLEXURAL BEHAVIOR OF FIBER-REINFORCED-
CONCRETE BEAMS REINFORCED WITH FRP REBARS.
EXPERIMENTAL TESTING OF RICE HUSK ASH
CONCRETE BEAMS
12. Polypropylene is also known as polypropene.
Polypropylene belongs to the group of polyolefins and
is partially crystalline and non-polar.
Harder and more heat resistant.
Polypropylene is the second-most widely
produced commodity plastic.
27. By studying literature study it has been proved that the
polypropylene fiber can be used as the addition to the cement in
concrete.
Material properties are good
Mix design has been done by Indian standard provisions.
The strength was attained by testing the specimen.
Addition of fibres in concrete enhances the flexural ability of the
concrete.