Modelling of creep deformation mechanisms in wood: Dissertation

Keyphrases

• Wood 100%
• Hygroexpansion 100%
• Creep 100%
• Creep Deformation Mechanism 100%
• Humidity Conditions 50%
• Creeping Flow 50%
• Mechano-sorptive Effect 50%
• Mechano-sorptive 50%
• Mathematical Modeling 25%
• Desorption 25%
• Miniature Specimen 25%
• Creep Experiment 25%
• Observation Oriented Modeling 25%
• Reform Process 25%
• Constitutive Equation 25%
• Experiment Results 25%
• Material Type 25%
• Wood Construction 25%
• Quantitative Modeling 25%
• Grain Direction 25%
• Viscoelastic Creep 25%
• Mechano-sorptive Creep 25%
• Moisture Distribution 25%
• Wooden Members 25%
• Wood Beams 25%
• Wood Powder 25%
• Swelling-shrinkage 25%
• Deformation Kinetics 25%
• Breaking Process 25%
• Generalized Maxwell Model 25%
• Maxwell Material 25%
• Bond Breaking 25%
• Molecular Bond 25%
• Molecular Hydrogen 25%
• Parallel-to-grain 25%
• Wood Modelling 25%
• Moisture Deformation 25%
• Mathematical Development 25%
• Bending Creep 25%
• Nonlinear Coupling 25%
• Hydrogen Bonds (H-bonds) 25%
• Material Model 25%
• Flow Equation 25%
• Shrinkage Creep 25%

INIS

• wood 100%
• deformation 100%
• modeling 100%
• creep 100%
• equations 27%
• moisture 18%
• interactions 18%
• coupling 18%
• humidity 18%
• tools 9%
• applications 9%
• reviews 9%
• construction 9%
• kinetics 9%
• strains 9%
• size 9%
• bending 9%
• mathematical models 9%
• distribution 9%
• hydrogen 9%
• accumulation 9%
• nonlinear problems 9%
• shrinkage 9%
• beams 9%
• desorption 9%
• cross sections 9%
• swelling 9%
• experiment results 9%

Engineering

• Creep 100%
• Deformation Mechanism 100%
• Mathematical Modelling 9%
• Good Agreement 9%
• Applicability 9%
• Combined Effect 9%
• Experimental Work 9%
• Theoretical Work 9%
• Constitutive Equation 9%
• Model Type 9%
• Fundamental Assumption 9%
• Molecular Hydrogen 9%
• Cross Section 9%
• Main Result 9%
• Flow Equation 9%