Understanding Creep Mechanisms in Graphite with Experiments, Multiscale Simulations, and Modeling | Zendy

Jacob Eapen | Zendy; K.L. Murty | Zendy; T.D. Burchell | Zendy

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Understanding Creep Mechanisms in Graphite with Experiments, Multiscale Simulations, and Modeling

Author(s) -

Jacob Eapen,

K.L. Murty,

T.D. Burchell

Publication year - 2014

Language(s) - English

Resource type - Reports

DOI - 10.2172/1167180

Subject(s) - graphite , raman spectroscopy , materials science , nuclear graphite , neutron , neutron diffraction , creep , irradiation , diffraction , nuclear physics , composite material , physics , optics

Disordering mechanisms in graphite have a long history with conflicting viewpoints. Using Raman and x-ray photon spectroscopy, electron microscopy, x-ray diffraction experiments and atomistic modeling and simulations, the current project has developed a fundamental understanding of early-to-late state radiation damage mechanisms in nuclear reactor grade graphite (NBG-18 and PCEA). We show that the topological defects in graphite play an important role under neutron and ion irradiation.

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