INIS
wood
100%
loading
100%
fatigue
100%
compression
100%
geometry
57%
layers
28%
strains
28%
shape
28%
shear
28%
rings
28%
ultrasonics
28%
surfaces
14%
x radiation
14%
design
14%
energy
14%
stiffness
14%
industry
14%
grinding
14%
reduction
14%
depth
14%
precision
14%
orientation
14%
tomography
14%
elasticity
14%
Engineering
Localization Phenomenon
100%
Ultrasonics
100%
Annual Ring
100%
Shear Modulus
100%
Radial Direction
50%
Energy Conservation
50%
Induced Fatigue
50%
Strain Profile
50%
Strain Localization
50%
Impaction
50%
Grinding (Machining)
50%
Keyphrases
Wood
100%
Localized Fatigue
100%
Compression Load
100%
Radial Direction
28%
Localization Phenomenon
28%
Ultrasonic
28%
Annual Rings
28%
Shear Modulus
28%
Stiffness
14%
Energy Saving
14%
Paperboard
14%
Strain Localization
14%
Repeated Compression
14%
Stone Surfaces
14%
Design Patterns
14%
Ultrasound
14%
X-ray Computed Tomography (X-CT)
14%
Tangential Directions
14%
Depth Profiling
14%
Strain Profile
14%
Profiling Techniques
14%
Radial Geometry
14%
Ring Geometry
14%
Localized Strain
14%
Material Science
Elastic Moduli
100%
Paperboard
50%
Tomography
50%
Elasticity
50%
Physics
Ultrasonics
100%
Shear Modulus
100%
Tomography
50%