Modeling Near-Crack-Tip Plasticity at Nano- to Micro- Scales | Zendy

Edward H. Glaessgen | Zendy; Erik Saether | Zendy; Jacob Hochhalter | Zendy; V. Yamakov | Zendy

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Modeling Near-Crack-Tip Plasticity at Nano- to Micro- Scales

Author(s) -

Edward H. Glaessgen,

Erik Saether,

Jacob Hochhalter,

V. Yamakov

Publication year - 2010

Publication title -

nasa sti repository (national aeronautics and space administration)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2010-2733

Subject(s) - materials science , plasticity , nano , nanoscopic scale , nanotechnology , composite material

Several efforts that are aimed at understanding the plastic deformation mechanisms related to crack propagation at the nano-, meso- and micro-length scales including atomistic simulation, discrete dislocation plasticity, strain gradient plasticity and crystal plasticity are discussed. The paper focuses on discussion of newly developed methodologies and their application to understanding damage processes in aluminum and its alloys. Examination of plastic mechanisms as a function of increasing length scale illustrates increasingly complex phenomena governing plasticity.

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