INIS
wood
100%
moisture
87%
modeling
48%
bridges
42%
finite element method
35%
humidity
32%
simulation
28%
climates
24%
deformation
22%
crack growth
21%
beams
21%
fibers
21%
monitoring
19%
transport
15%
evaluation
15%
loading
15%
water
14%
surfaces
14%
decay
12%
performance
12%
tools
11%
computerized simulation
11%
x radiation
11%
norway
11%
cell wall
11%
crack propagation
10%
service life
10%
stress analysis
10%
spruces
10%
rain
10%
Keyphrases
Wood
75%
Hygrothermal Effect
44%
Timber Bridge
30%
Humidity
30%
Moisture Stress
29%
Moisture Content
27%
Fickian
19%
Timber Structures
18%
Crack Growth
18%
Glulam Beam
18%
Thermal Model
16%
Moisture
15%
Humidity Conditions
14%
FEM Software
14%
Thermal Behavior
14%
Computational Approach
13%
Numerical Simulation
12%
Rain
12%
ABAQUS
11%
FEM Modeling
11%
Stress Analysis
11%
Moisture Transport
11%
Moisture Gradient
11%
Surface Densification
10%
Norway Spruce
10%
X-ray Microtomography
10%
Abaqus FEM
10%
Pulp
10%
Engineering
Abaqus
42%
Timber Bridge
33%
Finite Element Analysis
29%
Relative Humidity
24%
Glulam Beam
19%
Induced Stress
19%
Thermal Model
18%
Crack Growth
18%
Thermal Behavior
16%
Moisture Transport
15%
Constitutive Model
14%
Service Life
13%
Moisture Transfer
12%
Finite Element Modeling
11%
Moisture Gradient
11%
Computer Simulation
11%
Moisture Diffusion
11%
Numerical Model
11%
Surface Densification
10%