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Experimental and numerical analysis of boundary effects
An integrated theoretical and experimental approach for
Crack propagation model for high temperature structures
40 other sections not shown
analysis applied approach approximate beam behaviour bending boundary boundary element method calculated coefficient components composite computed concrete constant constitutive equations corresponding crack band crack extension crack front crack growth rate crack length crack opening crack propagation crack tip creep criterion curve cyclic damage deformation dependent determined displacement ductile effect elastic element method energy release rate Engineering equation evaluation experimental results failure fatigue crack growth fiber fictitious crack finite element fractal fractal dimension fracture energy fracture mechanics fracture toughness function geometry gradient increment integral interface linear load material matrix maximum measured Mech mesh microsilica microstructure mixed mode modulus nonlocal notch root numerical obtained parameters plane strain plane stress plate prediction problem procedure properties samples shear band simulation solution specimen steel stiffener strain energy strain rate stress distribution stress intensity factor structure superalloys temperature thermal values variable viscoelastic Young's modulus zone