Details

Title

Calculation of Stress Intensity Factor for an Internal Circumferential Crack in a Rotating Functionally Graded Thick-Walled Hollow Circular Cylinder under Thermal Shock

Journal title

Archive of Mechanical Engineering

Yearbook

2017

Numer

No 4

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Science, Committe of Machine Design

Date

2017

Identifier

ISSN 0004-0738, e-ISSN 2300-1895

References

Rokhi (2013), Coupled thermoelasticity of a functionally graded cracked layer under thermomechanical shocks of, Archives Mechanics, 20, 71. ; Lewis (2008), The stress solutions for through - wall circumferential cracks in cylinders subjected to general loading conditions, Engineering Fracture Mechanics, 12, 3206. ; Takabi (2016), Thermomechanical transient analysis of a thick - hollow FGM cylinder Solid Mechanics, Engineering, 4, 1, doi.org/10.5267/j.esm.2015.10.002 ; Hearn (1997), of, Mechanics Materials, 24. ; Anderson (1994), Fracture Fundamentals Applications nd edition, Mechanics, 25. ; Navabi (2012), Determination of transient thermal stress intensity factors in cylinders with circumferential crack In th Annual International Conference on Mechanical Iran, Engineering, 14. ; Birinci (2006), Axisymmetric circumferential internal crack problem of a thick - walled cylinder with inner and outer claddings of Mechanics - A, European Journal Solids, 9, 764, doi.org/10.1016/j.euromechsol.2005.11.007 ; Nahta (null), Domain integrals for axisymmetric interface crack problems of Solids and Structures, International Journal, 21, 15, doi.org/10.1016/0020-7683(93)90049- ; Shariati (null), Calculation of stress intensity factors for FGM cylinder with central circular crack under static and dynamic loading In th Conference of Iranian Iran, Aerospace Society, 15, 2015. ; Meshii (1998), Closed form stress intensity factor of an arbitrarily located inner - surface circumferential crack in an edge - restraint cylinder under linear radial temperature distribution, Engineering Fracture Mechanics, 519, doi.org/10.1016/S0013-7944(98)00046-0 ; Eshraghi (null), Stress intensity factor calculation for internal circumferential cracks in functionally graded cylinders using the weight function approach, Engineering Fracture Mechanics, 134, doi.org/10.1016/j.engfracmech.2014.12.007 ; Seifi (null), Stress intensity factors for internal surface cracks in autofrettaged functionally graded thick cylinders using weight function method and, Theoretical Applied Fracture Mechanics, 75, doi.org/10.1016/j.tafmec.2014.11.004 ; Varfolomeyev (1998), Stress intensity factors for internal circumferential cracks in thin - and thick - walled cylinders, Engineering Fracture Mechanics, 491, doi.org/10.1016/S0013-7944(98)00045-9 ; Chen (2000), Stress intensity factors in a finite length cylinder with a circumferential crack of Pressure Vessels and, International Journal Piping, 7, 77, doi.org/10.1016/S0308-0161(00)00047-8 ; Hetnarski (2009), Thermal stresses advanced theory applications, null, 17, doi.org/10.1007/978-1-4020-9247-3 ; Rokhi (2012), Numerical analysis of crack propagation in a functionally graded layer under dynamic loading and thermal shock thesis Faculty of Mechanics Shahrood University of Technology Iran, null, 19. ; Shariati (2017), Investigation of stress intensity factor for internal cracks in FG cylinders under static and dynamic loading Frattura ed Integrità, null, 39, doi.org/10.3221/IGF-ESIS.39.17 ; Ghajar (2010), Closed - form thermal stress intensity factors for an internal circumferential crack in a thick - walled cylinder of, Fatigue Fracture Engineering Materials Structures, 13, 504. ; Tehrani (2008), Analysis of FGM cylindrical vessels under thermo - mechanical loading In Annual Conference on Mechanical Iran, Engineering, 16. ; Rokhi (2013), Implementation of the extended finite element method for coupled dynamic thermoelastic fracture of a functionally graded cracked layer the of and, Journal of Brazilian Society Mechanical Sciences Engineering, 22, 69, doi.org/10.1007/s40430-013-0015-0 ; Tran (2012), and industrial applications of axisymmetric model for fracture mechanics, Development Engineering Fracture Mechanics, 11, 135, doi.org/10.1016/j.engfracmech.2011.12.002 ; Jones (2005), Impulse response model of thermal striping for hollow cylindrical geometries and, Theoretical Applied Fracture Mechanics, 43, 77. ; Kim (2002), Isoparametric graded finite elements for nonhomogeneous isotropic and orthotropic materials of, Journal Applied Mechanics, 23, 69, doi.org/10.1115/1.1467094 ; Grebner (1985), Investigation of different isoparametric axisymmetric crack tip elements applied to a complete circumferential surface crack in a pipe Computers Structures, null, 21, 1177. ; Lai (2009), Introduction to continuum mechanics th edition, null, 18.

DOI

10.1515/meceng-2017-0027

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