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Title: Atomistic scale experimental observations and micromechanical/continuum models for the effect of hydrogen on the mechanical behavior of metals
Author(s): Sofronis, Petros; Robertson, Ian M.
Subject(s): atomistic models
computational solid mechanics
continuum mechanics
elasticity
environmental effects
smart materials
fracture
granular materials
materials processing
micromechanics
plasticity
Abstract: In-situ deformation studies in a transmission electron microscope equipped with an environmental cell have shown that solute hydrogen increases the velocity of dislocations, decreases the stacking-fault energy, and increases the stability of edge character dislocations. Theoretical modeling has established that the hydrogen atmospheres formed at dislocations through the elastic interaction cause a change in the stress field of the dislocationhydrogen complex in such a manner as to reduce the interaction energy between it and other elastic obstacles. Consequently, solute hydrogen increases the mobility of dislocations, which will be localized to regions of high hydrogen concentration. On the basis of this material softening at the microscale, a solid mechanics analysis of the hydrogen solute interaction with material elastoplasticity demonstrates that localization of the deformation in the form of bands of intense shear can occur at the microscale. Thus, the present combined experimental and numerical/analytical results provide a clear explanation for the hydrogen-enhanced localized plasticity mechanism of hydrogen embrittlement.
Issue Date: 2001-06
Publisher: Department of Theoretical and Applied Mechanics (UIUC)
Series/Report: TAM Reports 972
Genre: Technical Report
Article
Type: Text
Language: English
URI: http://hdl.handle.net/2142/255
ISSN: 0073-5264
Publication Status: published or submitted for publication
Peer Reviewed: is not peer reviewed
Rights Information: Copyright owned by Petros Sofronis and Ian M. Robertson
Date Available in IDEALS: 2007-03-08


This item appears in the following Collection(s)

  • Theoretical and Applied Mechanics (TAM) Technical Reports
    TAM technical reports include manuscripts intended for publication, theses judged to have general interest, notes prepared for short courses, symposia compiled from outstanding undergraduate projects, and reports prepared for research-sponsoring agencies.

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