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"Deterministic And Probabilistic Creep And Creep Rupture Enhancement To CARES/Creep: Multiaxial Creep Life Prediction Of Ceramic Structures Using Continuum Damage Mechanics And The Finite Element Method" and the language of the book is English.


“Deterministic And Probabilistic Creep And Creep Rupture Enhancement To CARES/Creep: Multiaxial Creep Life Prediction Of Ceramic Structures Using Continuum Damage Mechanics And The Finite Element Method” Metadata:

  • Title: ➤  Deterministic And Probabilistic Creep And Creep Rupture Enhancement To CARES/Creep: Multiaxial Creep Life Prediction Of Ceramic Structures Using Continuum Damage Mechanics And The Finite Element Method
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  • Language: English

“Deterministic And Probabilistic Creep And Creep Rupture Enhancement To CARES/Creep: Multiaxial Creep Life Prediction Of Ceramic Structures Using Continuum Damage Mechanics And The Finite Element Method” Subjects and Themes:

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  • Internet Archive ID: nasa_techdoc_19990005979

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"Deterministic And Probabilistic Creep And Creep Rupture Enhancement To CARES/Creep: Multiaxial Creep Life Prediction Of Ceramic Structures Using Continuum Damage Mechanics And The Finite Element Method" Description:

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High temperature and long duration applications of monolithic ceramics can place their failure mode in the creep rupture regime. A previous model advanced by the authors described a methodology by which the creep rupture life of a loaded component can be predicted. That model was based on the life fraction damage accumulation rule in association with the modified Monkman-Grant creep ripture criterion However, that model did not take into account the deteriorating state of the material due to creep damage (e.g., cavitation) as time elapsed. In addition, the material creep parameters used in that life prediction methodology, were based on uniaxial creep curves displaying primary and secondary creep behavior, with no tertiary regime. The objective of this paper is to present a creep life prediction methodology based on a modified form of the Kachanov-Rabotnov continuum damage mechanics (CDM) theory. In this theory, the uniaxial creep rate is described in terms of stress, temperature, time, and the current state of material damage. This scalar damage state parameter is basically an abstract measure of the current state of material damage due to creep deformation. The damage rate is assumed to vary with stress, temperature, time, and the current state of damage itself. Multiaxial creep and creep rupture formulations of the CDM approach are presented in this paper. Parameter estimation methodologies based on nonlinear regression analysis are also described for both, isothermal constant stress states and anisothermal variable stress conditions This creep life prediction methodology was preliminarily added to the integrated design code CARES/Creep (Ceramics Analysis and Reliability Evaluation of Structures/Creep), which is a postprocessor program to commercially available finite element analysis (FEA) packages. Two examples, showing comparisons between experimental and predicted creep lives of ceramic specimens, are used to demonstrate the viability of this methodology and the CARES/Creep program.

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