1 Pindera, M. J., "Use of composites in multi- phased and functionally graded materials" 28B (28B): 1997
2 Kar, A., "Thermoelastic interaction with energy dissipation in a transversely isotropic thin circular disc" 26 (26): 969-981, 2007
3 Kordkheili, S. A. H., "Thermoelastic analysis of a functionally graded rotating disk" 79 (79): 508-516, 2007
4 Mohammadi, M., "Thermal stress in a nonhomogeneous curved beam" 31 (31): 587-598, 2008
5 Timoshenko, S., "Theory of Elasticity" McGraw Hill 1970
6 Mehrnoosh Damircheli, "Temperature and thickness effects on thermal and mechanical stresses of rotating FG-disks" 대한기계학회 25 (25): 827-836, 2011
7 Çallıoğlu, H., "Stress analysis of functionally graded discs under mechanical and thermal loads" 18 : 111-118, 2011
8 Çallıoğlu, H., "Stress analysis in a functionally graded disc under mechanical loads and a steady state temperature distribution" 36 (36): 53-64, 2011
9 Nie, G. J., "Stress analysis and material tailoring in isotropic linear thermoelastic incompressible functionally graded rotating disks of variable thickness" 92 (92): 720-729, 2010
10 Chiba, R., "Stochastic heat conduction analysis of a functionally graded annular disc with spatially random heat transfer coefficients" 33 (33): 507-523, 2009
1 Pindera, M. J., "Use of composites in multi- phased and functionally graded materials" 28B (28B): 1997
2 Kar, A., "Thermoelastic interaction with energy dissipation in a transversely isotropic thin circular disc" 26 (26): 969-981, 2007
3 Kordkheili, S. A. H., "Thermoelastic analysis of a functionally graded rotating disk" 79 (79): 508-516, 2007
4 Mohammadi, M., "Thermal stress in a nonhomogeneous curved beam" 31 (31): 587-598, 2008
5 Timoshenko, S., "Theory of Elasticity" McGraw Hill 1970
6 Mehrnoosh Damircheli, "Temperature and thickness effects on thermal and mechanical stresses of rotating FG-disks" 대한기계학회 25 (25): 827-836, 2011
7 Çallıoğlu, H., "Stress analysis of functionally graded discs under mechanical and thermal loads" 18 : 111-118, 2011
8 Çallıoğlu, H., "Stress analysis in a functionally graded disc under mechanical loads and a steady state temperature distribution" 36 (36): 53-64, 2011
9 Nie, G. J., "Stress analysis and material tailoring in isotropic linear thermoelastic incompressible functionally graded rotating disks of variable thickness" 92 (92): 720-729, 2010
10 Chiba, R., "Stochastic heat conduction analysis of a functionally graded annular disc with spatially random heat transfer coefficients" 33 (33): 507-523, 2009
11 You, L. H., "On rotating circular disks with varying material properties" 58 (58): 1068-1084, 2007
12 Garg, M., "Modeling creep in a variable thickness rotating FGM disc under varying thermal gradient" 32 (32): 1230-1250, 2015
13 Erdoğan, F., "Fracture mechanics of functionally graded materials" 5 (5): 753-770, 1995
14 Owen, D. R. J., "Finite elements in plasticity" Pineridge Pres 1986
15 Alexandrova, N. N., "Elastic-plastic stress distributions and limit angular velocities in rotating hyperbolic annular discs" 221 (221): 137-142, 2007
16 Çallıoğlu, H., "Elastic-plastic stress analysis of rotating functionally graded discs" 94 : 38-44, 2015
17 Yun-Che Wang, "Effects of thickness variations on the thermal elastoplastic behavior of annular discs" 국제구조공학회 47 (47): 839-856, 2013
18 Reddy, T. Y., "Effect of acceleration stresses on the yielding of rotating disks" 16 (16): 593-596, 1974
19 Khanna, K., "Creep analysis of a variable thickness rotating fgm disc using tresca criterion" 65 (65): 163-170, 2015
20 Mohammadi, M., "Axisymmetric and one-dimensional thermoelastic fields of radially graded bodies" 38 (38): 716-732, 2015
21 Zenkour, A. M., "Analytical solutions for rotating exponentially-graded annular disks various boundary conditions" 5 (5): 557-577, 2005
22 Liew, K. M, "Analysis of the thermal stress behaviour of functionally graded hollow circular cylinders" 40 (40): 2355-2380, 2003
23 Bayat, M., "Analysis of functionally graded rotating discs with variable thickness" 35 (35): 283-309, 2008