INIS
fibers
100%
damage
56%
adobe
46%
mortars
46%
performance
39%
animals
37%
matrices
33%
construction
25%
wires
24%
design
24%
energy
23%
fractures
23%
shape memory effect
22%
adhesion
22%
polypropylene
22%
telescopes
22%
alloys
22%
length
21%
curing
17%
mixtures
17%
interfaces
17%
flexural strength
16%
thermoplastics
15%
deformation
15%
wastes
14%
pigs
14%
particles
14%
soils
14%
drying
14%
applications
13%
cracking
13%
compression strength
12%
jute
12%
shrinkage
12%
space
11%
centrifuges
11%
moisture
11%
pavements
11%
water reservoirs
11%
pore structure
11%
gamma astronomy
11%
kaolin
11%
evaluation
11%
testing
11%
bricks
11%
mass loss
11%
nickel
11%
satellites
11%
assessments
11%
cotton
11%
Keyphrases
Adobe
44%
Reinforced
38%
Animal Fiber
37%
Pullout
33%
Natural Fibers
28%
Flexural Strength
26%
Mortar
25%
Adhesion
22%
Shape Memory Alloy Wire
22%
Material Experiment
22%
Cherenkov Telescope Array
22%
Mechanical Behavior
22%
Material Theory
22%
Pig Hair
21%
Mechanical Performance
18%
Compressive Strength
18%
NiTi Wire
17%
Fiber Dosage
17%
Construction Materials
16%
Fiber Length
15%
Impact Strength
15%
Thermoplastic Polyolefin
15%
Mechanical Damage
14%
Fiber Clustering
14%
Earthen Materials
14%
Adobe Blocks
13%
Mechanical Strength
13%
Jute Fiber
13%
Flexural Toughness
13%
Mechanical Properties
12%
Mechanical Fracture
12%
Crack Width
12%
High-gamma
11%
Gamma-ray Astronomy
11%
Fracture Characterization
11%
Design Concept
11%
Water Reservoir
11%
Damage Assessment
11%
Pore Structure
11%
Micro Polypropylene Fibers
11%
Internal Curing
11%
Eco-bricks
11%
Optical Performance
11%
Mechanical Deformation
11%
Recycled Polypropylene Fiber
11%
Cementitious Materials
11%
Reinforced Mortar
11%
Cotton
11%
Fine Soil Particles
11%
Polymeric Materials
11%
Engineering
Bending Strength
29%
Compression Strength
25%
Compressive Strength
25%
Animal Fibre
23%
Niti Wire
22%
Shape Memory Alloy
22%
Polyolefin
19%
Finite Element Modeling
12%
Mechanical Performance
12%
Experimental Result
12%
Drying Shrinkage
12%
Plaster
12%
Impact Strength
11%
Mechanical Damage
11%
Jute Fibre
11%
Joints (Structural Components)
11%
Thermoplastics Material
11%
Concrete Pavements
11%
Curing Condition
11%
Damage Assessment
11%
Reservoirs (Water)
11%
Internal Curing
11%
Fine Soil
11%
Soil Particle
11%
Space Application
11%
Mass Loss
11%
Damage Evolution
11%
Rammed Earth
11%
Special Interest
11%
Historic Building
11%
Steel Construction
11%
Concrete Construction
11%
Mechanical Property
11%
Fracture Mechanics
11%
Developing Country
11%
Debonding
9%
Fibre Size
7%
Filler Content
7%
Reinforced Concrete
7%
Natural Fibre
6%
Residual Stress
6%
Materials Mechanics
6%
Theoretical Study
6%
Nanometre
6%
Matrix Interface
6%
Surface Feature
6%
Atomic Force Microscopy
6%
Chemical Conversion Coating
6%
Pullout Test
6%
Energy Dissipation
6%