Influencing factors
type of loading
Wood tissue structure
Wood cell wall structure and chemistry
Density
Humidity/MC
Temperature
Funghi attack
Stress-stain diagram
Modulus of elasticity
Stain: e = delta l/l
Uniaxial stress: roh=F/A
E=roh/e [MPa]
Possions ratio
Correlation between axial elongation and lateral contraction:
Shear modulus
Hooke’s law for orthotropic materials
Effect of loading condition
Impact factors on E-modulus
Fibre load angle: the higher the lower E
Moisture content: The higher the lower E (contstant at >30%)
Higher MFA —> lower E Modulus
Fracture pattern of wood after tensile load (parallel)
Fracture pattern of wood after tensile load (perpendicular)
Fracture pattern compressive loading
Compressive Strength
The higher the bulk density the higher the compressive strength
Anisotropy tensile and compressive strength
Anisotropy: tensile strength parallel to fiber grain > compressive
tensile strength perpendicular to fibers < compressive
Bending strength
Influence Factors on strength
Density, Moisture content, growth ring widths, angle to fibre grain
Which one is higher, torsion or shear strength?
Torsion
Compression wood and strength
Higher density —> higher bending and compressive strength
Impact resistance
W=m*g(H-h)
Influence of moisture content on impact resistance
3% best impact strength
Then it goes down for higher moisture contents
Brinell Hardness
Impact factors on brinell hardness
Higher density —> higher brinell hardness
Lower moisture conzemz —> higher brilell hardness
Frequency distribution of strength values
Correlation of bending strength with…
Buolk density
Width of annual ring
Amount of fractions
Fibre deviation
E-modulus
Creep
Deformation of wood under loading as function of time
Creep curve for different stress levels
Time dependent elongation growth
Creep Coefficient
Superimposition of deformation
Stain = elastic + viscoelastic + mechano-sorptive + plastic
Superimposition of creep and swelling: strong influence of sample cross-section
Tensile loading + adsoption: Sample length increase due to creep plus due to swelling
Compressive loading and adsorption: Sample length decrease due to creep but increase due to swelling
Mechano soptive effect
Deformation in an alternin climate is higher than in constant climate for the same sorption maxima
Mechano sorptive creep
Delignified Wood
Delignified Wood - Mechanical Properties
Higher mechanical properties than native wood
6x higher tensile strength
Reason: Higher Fiber volume content (determined by eometry and alignment)
Water enables shaping of delignified wood —> reduced strength and stiffness
Matrix infiltration with DMDHEU or Epoxy
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