Title of article
Mean field modelling of the plastic behaviour of co-continuous dual-phase alloys with strong morphological anisotropy
Author/Authors
Laurent Delannay، نويسنده , , Frédéric Lani، نويسنده , , Thomas Pardoen، نويسنده , , Francis Delannay، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
19
From page
2327
To page
2345
Abstract
This work addresses the plastic flow properties of a composite material in which the reinforcing phase is continuous and cannot be suitably represented by isolated ellipsoidal inclusions. The dual-phase metal under consideration is composed of a network of Inconel-601 fibres infiltrated by pure aluminium. Hence, both phases exhibit elastic–plastic behaviour and are continuous in the three dimensions of space. The fibre network presents a large morphological anisotropy that is reflected in the mechanical response of the composite. The modelling is based on Eshelby’s equivalent inclusion theory. Strain partitioning between the phases is computed incrementally based on tangent operators derived from the isotropic response of individual phases. Assessment of the model relies on extensive experimental data. Uniaxial tensile tests, involving measurement of the Lankford coefficient, have been performed at various temperatures on samples containing different volume fractions of fibres. Measurement of the phase stresses by neutron diffraction supplements the information provided by the macroscopic stress–strain curves. It is demonstrated that predictions are valid only when the micro–macro averaging scheme accounts for the co-continuous character of the constitutive phases.
Keywords
Fibre-reinforced composite material (B) , Anisotropic material (B) , Elastic–plastic material (B) , Mean field models , Metallic material (B)
Journal title
International Journal of Plasticity
Serial Year
2006
Journal title
International Journal of Plasticity
Record number
1257341
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