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  1. Home
  2. Indian Institute of Technology Madras
  3. Publication10
  4. Analysis of interacting semi-elliptical surface cracks in finite thickness plates under remote bending load
 
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Analysis of interacting semi-elliptical surface cracks in finite thickness plates under remote bending load

Date Issued
01-07-2005
Author(s)
Raju Sethuraman 
Indian Institute of Technology, Madras
Thanga Ilango, I.
DOI
10.1016/j.ijpvp.2005.01.001
Abstract
Interaction effects of two coplanar self-same shallow and deep semi-elliptical surface cracks in finite thickness plates subjected to remote tension have been previously investigated by Sethuraman et al. Using the finite element based force method. In the present study, the effect of remote bending load on interacting semi-elliptical surface cracks in a finite thickness plate is analyzed. Stress intensity factors are evaluated along the entire crack front using a modified force method based on the three-dimensional finite element solution. The line spring model has also been used to evaluate stress intensity factors at the deepest point of a crack using shell finite element analysis. Parametric studies involving a wide ranges of geometric dimensions and crack configurations viz. crack shape aspect ratio (0.2≤a/c≤1.0), crack depth ratio (0.2≤a/t≤0.9), relative crack location (0.2≤2c/d ≤0.9) and normalized location on the crack front (0≤2φ/π ≤2) are carried out for numerical estimation of crack interaction factors. Due to the crack interaction, the stress intensity factor distribution is observed to be asymmetric along the crack front. The interaction is also observed to cease when the distance between two cracks is more than five times the crack width (i.e. 2c/d less than 0.2) irrespective of crack shape aspect ratio. Finally, an empirical relation is proposed for the evaluation of crack interaction crack interaction factors for the range of parameters considered. For the ranges considered, the proposed empirical relation predicts the crack interaction factors at the inner and outer surface points of the crack within ±4% of the three-dimensional finite element solutions. © 2005 Elsevier Ltd. All rights reserved.
Volume
82
Subjects
  • Force method

  • Interaction semi-elli...

  • Line spring element

  • Stress intensity fact...

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