Mixed mode stress intensity factors of single edge cracked/notched plates under different boundary conditions using strain energy approach.

This paper presents the mixed mode I/II stress intensity factors (SIFs) of slanted cracks/notches under tension loading. A two‐dimensional finite element analysis (FEA) was employed using the ABAQUS program. Based on the literature survey, there is a lack of solutions for SIFs of slanted cracks in plane stress plates. The strain energy approach (SEA) was adopted to analyze the notched cases. Mode I and II SIFs are derived via the SEA method from the strain energy computed using the FEA technique. The results show excellent agreement with other researchers' work. The key contribution of the present paper is the presentation of the effect of the crack/notch length to plate width ratio on the mode I and II SIFs of a slant‐edge‐cracked/notched plate under different boundary conditions. Sets of new data of mode I and II SIFs are provided herein in tabular and graphical formats. Highlights: Stress intensity factors (SIFs) of single edge‐cracked/notched plates under mode I/II loading computed.Parametric and comparative analysis of SIFs of pinned/clamped boundary conditions (BCs).SIFs derived from finite element analysis (FEA) computed elemental energies by strain energy approach.Effects of pinned and clamped BCs on mode I/II SIFs of cracked/notched plates shown. [ABSTRACT FROM AUTHOR]