Stress analysis in a functionally graded disc under mechanical loads and a steady state temperature distribution
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Callioglu
Hasan
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GOLD
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Yes
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Abstract
Abstract.: An analytical thermoelasticity solution for a disc made of functionally graded materials (FGMs) is presented. Infinitesimal deformation theory of elasticity and power law distribution for functional gradation are used in the solution procedure. Some relative results for the stress and displacement components along the radius are presented due to internal pressure, external pressure, centrifugal force and steady state temperature. From the results, it is found that the grading indexes play an important role in determining the thermomechanical responses of FG disc and in optimal design of these structures. © 2011 Indian Academy of Sciences.
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Keywords
Functionally graded materials; disc; thermoelasticity; pressure; stress, Disks (machine components), Elasticity, Grading, Stress analysis, Thermoelasticity, Centrifugal Forces, Functional gradation, Functionally graded, Infinitesimal deformation theory, Power law distribution, Steady-state temperature, Stress and displacements, Thermo-mechanical response, Functionally graded materials, Power law distribution, Functionally graded materials, Thermo-mechanical response, Stress analysis, Steady-state temperature, Functional gradation, Disks (machine components), Elasticity, 620, 510, Infinitesimal deformation theory, pressure, stress, Grading, thermoelasticity, Functionally graded materials; disc; thermoelasticity; pressure; stress, Stress and displacements, Functionally graded, Centrifugal Forces, Thermoelasticity, disc
Fields of Science
02 engineering and technology, 0203 mechanical engineering
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15
Volume
36
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1
Start Page
53
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64
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