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Creep modeling in functionally graded rotating disc of variable thickness D. Deepak, V. K. Gupta*, A. K. Dham
The Journal of Mechanical Science and Technology, vol. 24, no. 11, pp.2221-2232, 2010
Abstract : Creep behavior of rotating discs made of functionally graded materials with linearly varying thickness has been investigated. The discs
under investigation are made of composite containing silicon carbide particles in a matrix of pure aluminum. The creep behavior of the
composite has been described by threshold stress based creep law by assuming a stress exponent of 5. The effect of imposing linear particle
gradient on the distribution of stresses and strain rates in the composite disc has been investigated. The study indicates that with increase
in particle gradient in the disc, the radial stress increases throughout the disc, whereas the tangential and effective stresses increase
near the inner radius but decrease near the outer radius. The steady state strain rates in the composite disc, having gradient in the distribution
of reinforcement, are significantly lower than that observed in a disc having uniform distribution of reinforcement.
Keyword :
Functionally graded material; Modeling; Rotating disc; Steady state creep
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