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Optimal design of full disks with respect to mixed creep rupture time
Highlights The problem of optimal shape for the full disk is investigated. The mixed rupture theory is applied. The finite strain theory and Norton’s law for true stresses are used. The initial shape of the disk is defined by the polynomial function.
Abstract The mixed creep rupture theory to the optimization problem for the complex stress state is used. The problem of optimal shape for the rotating full disk with respect to mixed rupture time is investigated. The mathematical model of mixed creep rupture is described by the system of five partial differential equations. Difficulty of the problem results from two types of nonlinearities: geometrical connected with the use of the finite strain theory and physical – the material is described by the Norton’s creep law, here generalized for true stresses and logarithmic strains. Additional time factor leads to subsequent complications. The parametric optimization describing the initial shape of the disk is applied. The obtained results are compared with the optimal disks with respect to ductile creep rupture time.
Optimal design of full disks with respect to mixed creep rupture time
Highlights The problem of optimal shape for the full disk is investigated. The mixed rupture theory is applied. The finite strain theory and Norton’s law for true stresses are used. The initial shape of the disk is defined by the polynomial function.
Abstract The mixed creep rupture theory to the optimization problem for the complex stress state is used. The problem of optimal shape for the rotating full disk with respect to mixed rupture time is investigated. The mathematical model of mixed creep rupture is described by the system of five partial differential equations. Difficulty of the problem results from two types of nonlinearities: geometrical connected with the use of the finite strain theory and physical – the material is described by the Norton’s creep law, here generalized for true stresses and logarithmic strains. Additional time factor leads to subsequent complications. The parametric optimization describing the initial shape of the disk is applied. The obtained results are compared with the optimal disks with respect to ductile creep rupture time.
Optimal design of full disks with respect to mixed creep rupture time
Szuwalski, Krzysztof (author) / Ustrzycka, Aneta (author)
Engineering Structures ; 56 ; 1728-1734
2013-07-26
7 pages
Article (Journal)
Electronic Resource
English
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