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Numerical model of thermoelastic-plastic concrete material
Juri Kajaste-Rudnitski
VTT Technical Research Centre of Finland
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Dive into the research topics of 'Numerical model of thermoelastic-plastic concrete material'. Together they form a unique fingerprint.
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Keyphrases
Temperature Effect
100%
Numerical Model
100%
Concrete Materials
100%
Plastic Concrete
100%
Thermo-elastic-plastic
100%
Finite Element Method
66%
Young's Modulus
66%
ABAQUS
66%
Structures in Fire
66%
Resistance Evaluation
66%
Fire Resistance
66%
Tensile Strength
33%
Hardening Behavior
33%
Compressive Strength
33%
Fire Test
33%
Temperature Function
33%
Compressive Stress State
33%
Transient Strain
33%
Tension-free
33%
Tensile Stress State
33%
Thermoelastic Stress Analysis
33%
Temperature-dependent Material
33%
Engineering
Young's Modulus
100%
Concrete (Composite Building Material)
100%
Numerical Model
100%
Finite Element Analysis
100%
Tensile Stress σ
50%
Compressive Stress
50%
Hardening Behavior
50%
Input Data
50%
Stress State
50%
Dependent Material
50%
Structural Element
50%
Transients
50%
Ultimate Tensile Strength
50%
Temperature Dependence
50%
Main Program
50%
INIS
temperature dependence
100%
plastics
100%
evaluation
40%
finite element method
40%
hardening
40%
compression
40%
thermoplastics
40%
young modulus
40%
fire resistance
40%
comparative evaluations
20%
data
20%
strains
20%
size
20%
tensile strength
20%
employment
20%
cracking
20%
algorithms
20%
stress analysis
20%
steels
20%
fires
20%
compression strength
20%
Material Science
Thermoplastics
100%
Young's Modulus
100%
Finite Element Methods
100%
Ultimate Tensile Strength
100%
Concrete (Composite Building Material)
100%
Fire Resistance
100%
Stress Analysis
50%