Engineering
Cement-Based Material
100%
Model
100%
Acid
90%
Polymers
90%
Cracks
80%
Water
70%
Cement Paste
50%
Mechanical Property
50%
Properties
40%
Healing Mechanism
40%
Mesoscale
40%
Modulus of Elasticity
30%
Mathematical Model
30%
Crack Width
30%
Ultimate Tensile Strength
30%
Self Healing Concrete
20%
Capillary Water
20%
Fracture Surface
20%
Swelling
20%
Healing Process
20%
Loss
20%
Tensile Test
20%
Design
20%
Illustrates
20%
Absorption Capacity
20%
Optimization
20%
Sealing System
10%
Assemblage
10%
Guidelines
10%
Evaluation
10%
Cement Mortar
10%
Experimental Result
10%
Functionality
10%
Composite Material
10%
Healing Agent
10%
Past Decade
10%
Input Parameter
10%
Images
10%
Mechanical Performance
10%
Good Agreement
10%
Optimised Design
10%
Numerical Optimization
10%
Cement Matrix
10%
Capillary Absorption
10%
Physical Phenomena
10%
Maps
10%
Performance
10%
Healing Material
10%
Concrete Element
10%
Functional Property
10%
Concrete Technology
10%
Chemical Composition
10%
Crack Surface
10%
Recovery
10%
Fracture
10%
Numerical Modeling
10%
Moisture Content
10%
Crack Propagation
10%
Stress-Strain Curve
10%
Modeling Work
10%
Research
10%
Energy Engineering
10%
Microscale
10%
INIS
cements
100%
healing
100%
investigations
100%
capsules
81%
cracks
75%
polymers
56%
water
56%
interfaces
50%
absorption
43%
modeling
31%
mortars
25%
matrices
25%
design
18%
surfaces
18%
width
18%
tensile strength
18%
optimization
18%
capillaries
18%
fractures
18%
increasing
12%
computed tomography
12%
capacity
12%
distribution
12%
swelling
12%
simulation
12%
x radiation
12%
losses
12%
shape
12%
performance
12%
solutions
12%
size
12%
mechanical properties
12%
inclusions
12%
electrons
6%
mixtures
6%
zones
6%
composite materials
6%
hardness
6%
backscattering
6%
hydrates
6%
energy
6%
maps
6%
curves
6%
particles
6%
microstructure
6%
blocking
6%
bacteria
6%
moisture
6%
resources
6%
recovery
6%
crack propagation
6%
images
6%
guidelines
6%
yields
6%
assessments
6%
tools
6%
chemical composition
6%
x-ray spectroscopy
6%
strains
6%
experimental data
6%
validation
6%
stiffness
6%
time resolution
6%
minerals
6%
Material Science
Materials
100%
Cement
100%
Cracks
100%
Polylactide
81%
Water
81%
Polymers
72%
Cement Paste
45%
Mechanical Property
45%
Elastic Moduli
27%
Ultimate Tensile Strength
27%
Swelling
18%
Surface (Surface Science)
18%
Concrete
18%
Tomography
18%
Interface Property
18%
Strength of Materials
18%
Composite Material
18%
Inclusions
18%
Surface Crack
9%
Concrete Technology
9%
Crack Propagation
9%
Composite Material
9%
Hardness
9%
Stiffness
9%
Nanoindentation
9%
Self-Healing Material
9%
Energy-Dispersive X-Ray Spectroscopy
9%
Polymer Property
9%
Particle
9%