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Constitutive modelling of fibre-reinforced concrete under uniaxial tensile loading
Jyrki Kullaa
VTT Technical Research Centre of Finland
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Dive into the research topics of 'Constitutive modelling of fibre-reinforced concrete under uniaxial tensile loading'. Together they form a unique fingerprint.
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Keyphrases
Uniaxial Tensile Loading
100%
Fiber Reinforced Concrete
100%
Constitutive Modeling
100%
Stress-strain Curve
50%
Fiber Type
50%
Composite Materials
50%
Fracture Mechanism
50%
Multiple Cracks
50%
Pullout
50%
Crack Width
50%
Strain Softening
50%
Fiber Fracture
50%
Randomly Distributed
50%
Crack Spacing
50%
Composite Design
50%
Uniaxial Loading
50%
Single Fracture
50%
New Constitutive Model
50%
INIS
fibers
100%
modeling
100%
loading
100%
reinforced concrete
100%
fractures
60%
cracking
40%
cracks
40%
design
20%
width
20%
strains
20%
matrices
20%
curves
20%
composite materials
20%
mechanics
20%
strain softening
20%
Engineering
Tensiles
100%
Constitutive Modeling
100%
Fiber-Reinforced Concrete
100%
Constitutive Model
50%
Stress-Strain Curve
50%
Main Part
50%
Fracture Mechanism
50%
Single Fracture
50%
Crack Width
50%
Composite Material
50%
Material Science
Fiber Reinforced Concrete
100%
Constitutive Modeling
100%
Composite Material
50%