The problem of a rectilinear semi-illimitate crack in a ceramic plate laying on a weakly nonlocal elastic two-parameter (Pasternak) foundation and subject to transversal loadings applied on the plate surfaces is studied in the present work. The analytical full-field solution is obtained by solving a system of dual integral equations. In particular, the kernel function is factorized by using a procedure based on the Cauchy theorem, similar to the Wiener-Hopf method used in the solution of antiplane fracture problems. Closed-form solutions are thus provided for displacement, bending moment and shear force per unit length along the crack line. The ratioes between the subgrade parameters and flexural rigidity of the plate allow introducing two characteristic lengths, whose influence on the bending stress intensity factor and fracture toughness of the plate is then investigated.
The bending stress in a cracked ceramic plate resting on a two parameter elastic grade / Lanzoni, Luca; Nobili, Andrea; Radi, Enrico. - STAMPA. - 1:(2013), pp. L35-L35. (Intervento presentato al convegno Cermodel 2013 tenutosi a Trento nel July 10-12, 2013).
The bending stress in a cracked ceramic plate resting on a two parameter elastic grade
LANZONI, Luca;NOBILI, Andrea;RADI, Enrico
2013
Abstract
The problem of a rectilinear semi-illimitate crack in a ceramic plate laying on a weakly nonlocal elastic two-parameter (Pasternak) foundation and subject to transversal loadings applied on the plate surfaces is studied in the present work. The analytical full-field solution is obtained by solving a system of dual integral equations. In particular, the kernel function is factorized by using a procedure based on the Cauchy theorem, similar to the Wiener-Hopf method used in the solution of antiplane fracture problems. Closed-form solutions are thus provided for displacement, bending moment and shear force per unit length along the crack line. The ratioes between the subgrade parameters and flexural rigidity of the plate allow introducing two characteristic lengths, whose influence on the bending stress intensity factor and fracture toughness of the plate is then investigated.
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