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Anisotropic damage model under continuum slip crystal plasticity theory for single crystals
- Source :
- International Journal of Solids and Structures. 39:5279-5293
- Publication Year :
- 2002
- Publisher :
- Elsevier BV, 2002.
-
Abstract
- Modern concepts in the safe and economical design of components and structures need modern material models, which describe the material behavior more correctly. In high temperature design, the study of creep damage accumulation and its influence on the deformation behavior is very important. For ductile materials large deformation takes place at the level of damage appearance. Damage is anisotropic in nature. In this paper an anisotropic damage mechanics model based on a continuum damage mechanics (CDM) has been developed to model creep behavior of single crystal superalloys. Using the theory of CDM, the slip system model coupling with anisotropic damage model is developed. The model is formulated in the context of irreversible thermodynamics and the internal state variable theory. The distinguishing characteristic of the proposed constitutive model is that, by construction, the corresponding incremental stress–strain relations including damage evolution equation derive from a thermodynamical framework. The finite element program ABAQUS has been used and the slip system model is written using a user material subroutine. The numerical simulations show that the developed damage crystal model can reflect the microstructure such as the lattice orientation, self- and latent-hardening and rate sensitivity has great influence on the creep and damage development.
- Subjects :
- State variable
Materials science
Applied Mathematics
Mechanical Engineering
Constitutive equation
Mechanical engineering
Slip (materials science)
Mechanics
Condensed Matter Physics
Superalloy
Creep
Mechanics of Materials
Modeling and Simulation
Crystal model
Damage mechanics
General Materials Science
Anisotropy
Subjects
Details
- ISSN :
- 00207683
- Volume :
- 39
- Database :
- OpenAIRE
- Journal :
- International Journal of Solids and Structures
- Accession number :
- edsair.doi...........61ae1e52a93d62f58df619fbd970fbe0