fibre reinforced concrete
DESCRIPTION
FIBRE REINFORCED CONCRETE. BUILDING TECHNOLOGY AND MANAGEMENT. NEED. PCC has low tensile strength, limited ductility and little resistance to cracking PCC develops micro-cracks, even before loading Addition of small, closely spaced and uniformly distributed fibres act as crack arresters. - PowerPoint PPT PresentationTRANSCRIPT
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FIBRE REINFORCED CONCRETEBUILDING TECHNOLOGY AND MANAGEMENT
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PCC has low tensile strength, limited ductility
and little resistance to cracking
PCC develops micro-cracks, even before
loading
Addition of small, closely spaced and uniformly
distributed fibres act as crack arresters.
FIBRE REINFORCED CONCRETE is a
composite material consisting of mixtures of
cement, mortar or concrete and discontinuous,
discrete, uniformly dispersed suitable fibres.
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FACTORS AFFECTING THE PROPERTIES OF FRC
Relative Fibre Matrix Stiffness
Volume of Fibres
Aspect Ratio of the Fibre
Orientation of Fibres
Workability and Compaction of Concrete
Size of Coarse Aggregate
Mixing3
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1. RELATIVE FIBRE MATRIX STIFFNESS
Modulus of elasticity of matrix must be
much lower than that of fibre. E.g. steel,
glass, carbon
Fibres with low modulus of elasticity-
nylon, polypropylene
Interfacial bond between the matrix and
the fibres determine the effectiveness
of stress transfer
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2. VOLUME OF FIBRES
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3. ASPECT RATIO OF THE FIBRE
Aspect Ratio of a fibre = Length/Diameter
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4. ORIENTATION OF FIBRES
The effect of randomness, was tested
using mortar specimens reinforced with
0.5% volume of fibres, by orienting them:
parallel to the direction of the
load
perpendicular to the direction of the
load
in random
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5. Workability and Compaction of
Concrete
Fibres reduce workability
6. Size of Aggregate
Size of CA is restricted to 10mm
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7. MIXING
Cement content : 325 to 550 kg/m3
W/C Ratio : 0.4 to 0.6
% of sand to total aggregate : 50 to 100%
Maximum Aggregate Size : 10 mm
Air-content : 6 to 9%
Fibre content : 0.5 to 2.5% by vol of
mix
: Steel -1% - 78kg/m3
: Glass -1% - 25 kg/m3
: Nylon -1% - 11 kg/m3
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TYPES OF FRC’S
Steel Fibre Reinforced Concrete (SFRC)
Polypropylene Fibre Reinforced Concrete (PFRC)
Glass Fibre Reinforced Concrete (GFRC)
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STEEL FIBRE REINFORCED CONCRETE (SFRC)
Aspect ratios of 30 to 250
Diameters vary from 0.25 mm to 0.75
mm
Hooks are provided at the ends to
improve bond with the matrix
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INTRODUCTION OF STEEL FIBRES MODIFIES:
1. Tensile strength2. Compressive strength3. Flexural strength4. Shear strength5. Modulus of Elasticity6. Shrinkage7. Impact resistance8. Strain capacity/Toughness9. Durability10. Fatigue
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APPLICATIONS OF SFRC
Highway and airport pavements
Refractory linings
Canal linings
Industrial floorings and bridge-decks
Precast applications - wall and roof panels,
pipes, boats, staircase steps & manhole
covers
Structural applications
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POLYPROPYLENE FIBRE REINFORCED CONCRETE (PFRC)
Cheap, abundantly available
High chemical resistance
High melting point
Low modulus of elasticity
Applications in cladding panels and
shotcrete
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GLASS FIBRE REINFORCED CONCRETE (GFRC)
High tensile strength, 1020 to 4080 N/mm2
Lengths of 25mm are used
Improvement in impact strengths, to the
tune of 1500%
Increased flexural strength, ductility and
resistance to thermal shock
Used in formwork, swimming pools, ducts
and roofs, sewer lining etc.
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OTHER FIBRES
Asbestos Fibres
Carbon Fibres
Organic/Vegetable Fibres
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ASBESTOS FIBRES
High thermal, mechanical and chemical
resistance
Short in length (10 mm)
Flexural strength is 2 to 4 times that of
unreinforced matrix
Contains 8-16% of asbestos fibres by
volume
Associated with health hazards, banned
in many countries
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CARBON FIBRES
Material of the future, expensive
High tensile strengths of 2110 to 2815
N/mm2
Strength and stiffness superior to that of
steel
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ORGANIC/VEGETABLE FIBRES
Jute, coir and bamboo are examples
They may undergo organic decay
Low modulus of elasticity, high impact
strength