How to cite this paper
Takabi, B. (2016). Thermomechanical transient analysis of a thick-hollow FGM cylinder.Engineering Solid Mechanics, 4(1), 25-32.
Refrences
Aihara, T. (1998). Molecular dynamics simulation on elastic behavior of Ni/Ni 3 Al interface with graded structure. Japan Institute of Metals, Journal, 62(11), 978-985.
Bayat, Y., Ghannad, M., & Torabi, H. (2012). Analytical and numerical analysis for the FGM thick sphere under combined pressure and temperature loading. Archive of Applied Mechanics, 82(2), 229-242.
Chen, Y. F., & Erdogan, F. (1996). The interface crack problem for a nonhomogeneous coating bonded to a homogeneous substrate. Journal of the Mechanics and Physics of Solids, 44(5), 771-787.
Chen, P. Y. P. (1983). Axisymmetric thermal stresses in an anisotropic finite hollow cylinder. Journal of Thermal Stresses, 6(2-4), 197-205.
Erdogan, F. (1995). Fracture Mechanics of Functionally Graded Materials. MRS Bulletin, 20(01), 43-44.
Ghosn, A. H., & Sabbaghian, M. (1982). Quasi-static coupled problems of thermoelasticity for cylindrical regions. Journal of Thermal Stresses, 5(3-4), 299-313.
Goshima, T. & Miyao K. (1991). Transient thermal stress in a hollow cylinder subjected to x-ray heating and convective heat losses, Nuclear Engineering Design. 125, 267–273.
Horgan, C. O., & Chan, A. M. (1999). The pressurized hollow cylinder or disk problem for functionally graded isotropic linearly elastic materials. Journal of Elasticity, 55(1), 43-59.
Jabbari, M., Mohazzab, A. H., Bahtui, A., & Eslami, M. R. (2007). Analytical solution for three?dimensional stresses in a short length FGM hollow cylinder. ZAMM?Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 87(6), 413-429.
Kandil, A., El-Kady, A. A., & El-Kafrawy, A. (1995). Transient thermal stress analysis of thick-walled cylinders. International journal of mechanical sciences, 37(7), 721-732.
Kardomateas, G. A. (1989). Transient thermal stresses in cylindrically orthotropic composite tubes. Journal of applied mechanics, 56(2), 411-417.
Kardomateas, G. A. (1990). The initial phase of transient thermal stresses due to general boundary thermal loads in orthotropic hollow cylinders. Journal of Applied Mechanics, 57(3), 719-724.
Shahani, A. R., & Nabavi, S. M. (2007). Analytical solution of the quasi-static thermoelasticity problem in a pressurized thick-walled cylinder subjected to transient thermal loading. Applied Mathematical Modelling, 31(9), 1807-1818.
Salavati, H., Berto, F., & Alizadeh, Y. (2014). The flow stress assessment of austenitic-martensitic functionally graded steel under hot compression. Engineering Solid Mechanics, 2(2), 83-90.
Sutradhar, A., Paulino, G. H., & Gray, L. J. (2002). Transient heat conduction in homogeneous and non-homogeneous materials by the Laplace transform Galerkin boundary element method. Engineering Analysis with Boundary Elements, 26(2), 119-132.
Takezono, S., Tao, K., Inamura, E., & Inoue, M. (1996). Thermal stress and deformation in functionally graded material shells of revolution under thermal loading due to fluid. JSME international journal. Series A, mechanics and material engineering, 39(4), 573-581.
Vimal, J., Srivastava, R., Bhatt, A., & Sharma, A. (2014). Free vibration analysis of moderately thick functionally graded skew plates. Engineering Solid Mechanics, 2(3), 229-238.
Wetherhold, R. C., Seelman, S., & Wang, J. (1996). The use of functionally graded materials to eliminate or control thermal deformation. Composites Science and Technology, 56(9), 1099-1104.
Yee, K. C., & Moon, T. J. (2002). Plane thermal stress analysis of an orthotropic cylinder subjected to an arbitrary, transient, asymmetric temperature distribution. Journal of applied mechanics, 69(5), 632-640.
Zhang, X. D., Liu, D. Q., & Ge, C. C. (1994). Thermal stress analysis of axial symmetry functionally gradient materials under steady temperature field. Journal of Functionally Graded Materials, 25,573-581.
Bayat, Y., Ghannad, M., & Torabi, H. (2012). Analytical and numerical analysis for the FGM thick sphere under combined pressure and temperature loading. Archive of Applied Mechanics, 82(2), 229-242.
Chen, Y. F., & Erdogan, F. (1996). The interface crack problem for a nonhomogeneous coating bonded to a homogeneous substrate. Journal of the Mechanics and Physics of Solids, 44(5), 771-787.
Chen, P. Y. P. (1983). Axisymmetric thermal stresses in an anisotropic finite hollow cylinder. Journal of Thermal Stresses, 6(2-4), 197-205.
Erdogan, F. (1995). Fracture Mechanics of Functionally Graded Materials. MRS Bulletin, 20(01), 43-44.
Ghosn, A. H., & Sabbaghian, M. (1982). Quasi-static coupled problems of thermoelasticity for cylindrical regions. Journal of Thermal Stresses, 5(3-4), 299-313.
Goshima, T. & Miyao K. (1991). Transient thermal stress in a hollow cylinder subjected to x-ray heating and convective heat losses, Nuclear Engineering Design. 125, 267–273.
Horgan, C. O., & Chan, A. M. (1999). The pressurized hollow cylinder or disk problem for functionally graded isotropic linearly elastic materials. Journal of Elasticity, 55(1), 43-59.
Jabbari, M., Mohazzab, A. H., Bahtui, A., & Eslami, M. R. (2007). Analytical solution for three?dimensional stresses in a short length FGM hollow cylinder. ZAMM?Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 87(6), 413-429.
Kandil, A., El-Kady, A. A., & El-Kafrawy, A. (1995). Transient thermal stress analysis of thick-walled cylinders. International journal of mechanical sciences, 37(7), 721-732.
Kardomateas, G. A. (1989). Transient thermal stresses in cylindrically orthotropic composite tubes. Journal of applied mechanics, 56(2), 411-417.
Kardomateas, G. A. (1990). The initial phase of transient thermal stresses due to general boundary thermal loads in orthotropic hollow cylinders. Journal of Applied Mechanics, 57(3), 719-724.
Shahani, A. R., & Nabavi, S. M. (2007). Analytical solution of the quasi-static thermoelasticity problem in a pressurized thick-walled cylinder subjected to transient thermal loading. Applied Mathematical Modelling, 31(9), 1807-1818.
Salavati, H., Berto, F., & Alizadeh, Y. (2014). The flow stress assessment of austenitic-martensitic functionally graded steel under hot compression. Engineering Solid Mechanics, 2(2), 83-90.
Sutradhar, A., Paulino, G. H., & Gray, L. J. (2002). Transient heat conduction in homogeneous and non-homogeneous materials by the Laplace transform Galerkin boundary element method. Engineering Analysis with Boundary Elements, 26(2), 119-132.
Takezono, S., Tao, K., Inamura, E., & Inoue, M. (1996). Thermal stress and deformation in functionally graded material shells of revolution under thermal loading due to fluid. JSME international journal. Series A, mechanics and material engineering, 39(4), 573-581.
Vimal, J., Srivastava, R., Bhatt, A., & Sharma, A. (2014). Free vibration analysis of moderately thick functionally graded skew plates. Engineering Solid Mechanics, 2(3), 229-238.
Wetherhold, R. C., Seelman, S., & Wang, J. (1996). The use of functionally graded materials to eliminate or control thermal deformation. Composites Science and Technology, 56(9), 1099-1104.
Yee, K. C., & Moon, T. J. (2002). Plane thermal stress analysis of an orthotropic cylinder subjected to an arbitrary, transient, asymmetric temperature distribution. Journal of applied mechanics, 69(5), 632-640.
Zhang, X. D., Liu, D. Q., & Ge, C. C. (1994). Thermal stress analysis of axial symmetry functionally gradient materials under steady temperature field. Journal of Functionally Graded Materials, 25,573-581.