6533b836fe1ef96bd12a1ba0
RESEARCH PRODUCT
On the Path and Area J<sub>x1</sub>-Integral Components and their Relationship to the Out-of-Plane Constraint in Elastic Cracked Plates
J. Fernández SáezA. Fernández CanteliE. GinerD. Fernández Zúñigasubject
Physicsbusiness.industryMechanical EngineeringStress–strain curveMathematical analysisMode (statistics)Neighbourhood (graph theory)Young's modulusStructural engineeringConstraint (information theory)symbols.namesakeMechanics of MaterialsSimple (abstract algebra)Path (graph theory)symbolsGeneral Materials SciencebusinessPlane stressdescription
In this paper, the path and area components of the Jx1-integral, JP and JA, in three dimensional elastic cracked plates under mode-I loading are investigated aiming at relating them to the out-of-plane constraint conditions resulting from different specimen thicknesses. It is concluded that the JP and JA components of the Jx1-integral vary in the region where the out-of-plane constraint extends. Sufficiently far from the crack front, these integrals tend to stabilize, indicating that the thickness constraint vanishes and that a 2D-like stress and strain fields have been reached. A pure plane strain condition is only attained when the specimen thickness is very large when compared to the in-plane dimensions. For thin plates, it is shown that the 2D plane stress condition is impossible in the close neighbourhood of a 3D crack front under elastic behaviour so that the consideration of an equivalent Young modulus E', used to find a simple relation between the J(s)-integral and KI for different constraint levels can be misleading.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-10-01 | Key Engineering Materials |