Keyphrases
Brittle Materials
100%
Fiber Orientation
100%
Fiber-reinforced
100%
Constitutive Modeling
100%
Single Fiber
75%
Tensile Behavior
50%
Spalling
50%
Discrete Crack
50%
Crack Width
50%
Fiber Analysis
50%
Fiber Bridging
50%
Fibers Location
50%
Snubbing Effect
50%
Smeared Crack
50%
Fiber Properties
25%
Computational Tools
25%
Order of Magnitude
25%
Stress-strain
25%
Automatic Generation
25%
Finite Element Analysis
25%
All-fiber
25%
Fiber Matrix
25%
Finite Element Method
25%
Decreasing Effect
25%
Strain Hardening Behavior
25%
Short Fiber
25%
Axial Stress
25%
Interface Element
25%
Experimental Protocol
25%
Peak Load
25%
Constitutive Model
25%
Strain Energy
25%
Fracture Mode
25%
Multiple Cracks
25%
Cracking Stress
25%
Pullout
25%
Finite Element Program
25%
Fiber Pull-out
25%
Dimensional Analysis
25%
Energetic Fiber
25%
Crack Spacing
25%
Single Fracture
25%
Fracture Energy
25%
Several Cracks
25%
Micromechanical Properties
25%
High Ductility
25%
Constitutive Relation
25%
Stress Crack
25%
Fiber Debonding
25%
Crack Strain
25%
Fiber Rupture
25%
Fiber Interface
25%
Pullout Energy
25%
Crack Analysis
25%
Fracture-matrix System
25%
Stress-only
25%
Multisurface Plasticity
25%
Tensile Model
25%
Tensile Strain Hardening
25%
Flexural Members
25%
Multiple Fractures
25%
Fiber Bending
25%
Interface Generation
25%
Bending Points
25%
Engineering
Tensiles
100%
Single Fibre
100%
Constitutive Modeling
100%
Brittle Material
100%
Finite Element Method
100%
Bridging
66%
Fundamental Assumption
66%
Tensile Loads
66%
Energy Engineering
66%
Crack Width
66%
Fiber Orientation
66%
Constitutive Model
33%
Measured Value
33%
Short Fiber
33%
Strain Hardening
33%
Hardening Behavior
33%
Axial Stress
33%
Theoretical Value
33%
Point Bending
33%
Interface Element
33%
Peak Load
33%
Debonding
33%
Plasticity Theory
33%
Supports
33%
Strain
33%
Constitutive Relation
33%
Micromechanical Property
33%
Dimensional Analysis
33%
Tensile Strain
33%
Surface Plasticity
33%
Flexural Member
33%
Fracture Energy
33%
Strain Energy
33%
Fibre Rupture
33%
INIS
fibers
100%
modeling
100%
cracks
50%
matrices
30%
energy
20%
orientation
20%
cracking
15%
finite element method
15%
fractures
15%
values
10%
interfaces
10%
width
10%
strains
10%
tools
5%
surfaces
5%
geometry
5%
ruptures
5%
bending
5%
prediction
5%
plasticity
5%
dimensions
5%
curves
5%
symmetry
5%
ductility
5%
measured values
5%
strain hardening
5%
mechanics
5%
peak load
5%