Stress Analysis of Near Optimal Surface Notches in 3D Plates

Abstract: This paper presents a method of using two-dimensional (2D) optimal notch shapes to create near optimal surface notches with various depth and aspect ratios in uniaxially loaded three-dimensional (3D) plates. Axisymmetric and elongated surface notches are created by rotating 2D optimal notch shapes about two types of fixed axes, a major reason being to enable the surface notches to be manufactured by elementary methods. Stresses in the surface notches are determined using intensive 3D finite element analyses. A… Show more

“…Ukadgaonker and Rao (1997) presented solutions for stress distribution around triangular cutout with blunt corners in composite plates. Wescott et al (2004)) investigated the stress analysis of near optimal surface notches in 3D plates using two-dimensional (2D) optimal notch shapes. Sharma (2014) presented a general solution to calculate stress distribution around polygonal cut-out in infinite isotropic plates subjected to biaxial loading.…”

Optimum Design of Effective Parameters for Orthotropic Plates with Polygonal Cut-Out

“…Ukadgaonker and Rao (1997) presented solutions for stress distribution around triangular cutout with blunt corners in composite plates. Wescott et al (2004)) investigated the stress analysis of near optimal surface notches in 3D plates using two-dimensional (2D) optimal notch shapes. Sharma (2014) presented a general solution to calculate stress distribution around polygonal cut-out in infinite isotropic plates subjected to biaxial loading.…”

Optimum Design of Effective Parameters for Orthotropic Plates with Polygonal Cut-Out

Mathematical Model to Predict the Stress Concentration Factor on a Notched Flat Bar in Axial Tension

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