A Semi-analytical Approach to Elastic-plastic Stress Analysis of FGM Pressure Vessels
Subject Areas : EngineeringA.T Kalali 1 , S Hadidi-Moud 2
1 - Mechanical Engineering Department, Ferdowsi University of Mashhad
2 - Mechanical Engineering Department, Ferdowsi University of Mashhad
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Abstract :
[1] Chakraborty A., Gopalakrishnan S., Reddy J.N., 2003, A new beam finite element for the analysis of functionally graded materials, International Journal of Mechanical Sciences 45:519–539.
[2] Jin ZH., Paulino GH., Dodds Jr RH., 2003, Cohesive fracture modeling of elastic–plastic crack growth in functionally graded materials, Engineering Fracture Mechanics 70:1885–912.
[3] Figueiredo F., Borges L., Rochinha F., 2008, Elasto-plastic stress analysis of thick-walled FGM pipes, American Institute of Physics Conference Proceedings 973:147_52.
[4] Haghpanah Jahromi B., Farrahi GH., Maleki M., Nayeb-Hashemi H., Vaziri A., 2009, Residual stresses in autofrettaged vessel made of functionally graded material, Engineering Structures 31:2930–5.
[5] Haghpanah Jahromi B., Ajdari A., Nayeb-Hashemi H., Vaziri A., 2010, Autofrettage of layered and functionally graded metal–ceramic composite vessels, Composite Structures 92:1813–22.
[6] Jahed H., Dubey RN., 1997, An axisymmetric method of elastic-plastic analysis capable of predicting residual stress field, Journal of Pressure Vessel Technology 119:264–73
[7] Jahed H., Farshi B., Karimi M., 2006, Optimum autofrettage and shrink-fit combination in multi-layer cylinders, Journal of Pressure Vessel Technology 128:196–201.
[8] Jahed H., Farshi B., Bidabadi J., 2005, Minimum weight design of inhomogeneous rotating discs, International Journal of Pressure Vessels and Piping 82:35–41.
[9] Jahed H., Shirazi R., 2001, Loading and unloading behaviour of a thermoplastic disc, International Journal of Pressure Vessels and Piping 78:637–45.
[10] You LH., Zhang JJ., You XY., 2005, Elastic analysis of internally pressurized thick-walled spherical pressure vessels of functionally graded materials, International Journal of Pressure Vessels and Piping 82:374–345.
[11] Dai HL., Fu YM., Dong ZM., 2006, Exact solutions for functionally graded pressure vessels in a uniform magnetic field, International Journal of Solids and Structures 43:5570–80.
[12] Chen YZ., Lin XY., 2008, Elastic analysis for thick cylinders and spherical pressure vessels made of functionally graded materials, Computational Materials Science 44:581–587.
[13] Sadeghian M., Ekhteraei H., 2011, Axisymmetric yielding of functionally graded spherical vessel under thermo-mechanical loading, Computational Materials Science 50:975–81.
[14] Dunne F., Petrinic N., 2006, Introduction to Computational Plasticity, Oxford University Press.
[15] Chakrabarty J., 2006, Theory of Plasticity, UK, Elsevier Butterworth Heinemann, 3rd Edition.
[16] Mendelson A., 1968, Plasticity: Theory and Application, New York, Macmillan.
[17] Suresh S., Mortensen A., 1998, Fundamentals of Functionally Graded Materials, IOM Communications Ltd.
[18] Carpenter RD., Liang WW., Paulino GH., Gibeling JC., Munir ZA., 1999, Fracture testing and analysis of a layered functionally graded Ti/TiB beam in 3-point bending, Materials Science Forum 308–311:837–42.
[19] Jamshidi N., Abouei A., Molaei R., Rezaei R., Jamshidi M., 2011, Applied Guide on MATLAB, Tehran, Abed.
[20] Karlsson., Hibbitt., Sorensen., 2008, ABAQUS/CAE, Version 6.8-1.
[21] Setoodeh A., Kalali A., Hosseini A., 2008, Numerical analysis of FGM plate by applying virtual temperature distribution, 7 th conference of Iranian aerospace society, Tehran.
