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A transversely isotropic medium containing a penny-shaped crack subjected to a non-uniform axisymmetric loading via an anchored smooth rigid disk

Ordookhani, A ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1016/j.apm.2016.12.032
  3. Abstract:
  4. A smooth rigid circular anchor disk encapsulated by a penny-shaped crack is embedded in and unbounded transversely isotropic medium. The lamellar rigid disk exerts a nonuniform axisymmetric loading to the upper face of the crack. With the aid of an appropriate stress function and Hankel transform, the governing equations are converted to a set of triple integral equations which in turn are reduced to a Fredholm integral equation of the second kind. For some transversely isotropic materials the normalized stiffness of the system falls well outside of the envelope pertinent to isotropic media. It is shown that mode I stress intensity factor is independent of the material properties and solely depends on the ratio of the radius of the rigid disk to that of the crack; moreover, for the cases where this ratio is less than about 0.9 a simple explicit approximate expression for the mode I stress intensity factor is derived. In contrast, the normalized mode II stress intensity factor is independent of the mentioned geometrical parameters but depends on the elastic properties of the material; depending on the material properties, the normalized mode II stress intensity factor can vary between 0 to ∞ for transversely isotropic materials and between 0 to π/4 for isotropic materials. © 2017 Elsevier Inc
  5. Keywords:
  6. Anchored rigid disk ; Fredholm integral equation ; Nonuniform axisymmetric loading ; Stress intensity factor ; Cracks ; Geometry ; Hankel functions ; Integral equations ; Stress analysis ; Stress intensity factors ; Axisymmetric loading ; Fredholm integral equations ; Penny-shaped crack ; Rigid disk ; Transversely isotropic ; Loading
  7. Source: Applied Mathematical Modelling ; Volume 45 , 2017 , Pages 491-504 ; 0307904X (ISSN)
  8. URL: https://www.sciencedirect.com/science/article/pii/S0307904X17300045