Author:
El Kabir T.,Joulain A.,Gauthier V.,Dubois S.,Bonneville J.,Bertheau D.
Abstract
Metal-matrix composites are produced from Al powder and 30 vol% of icosahedral Al–Cu–Fe quasi-crystalline particles using a hot isostatic pressing technique. It is demonstrated that the initial icosahedral phase is transformed into the ω-Al70Cu20Fe10 tetragonal phase during the hot isostatic pressing (HIP) process. The mechanical properties of the composite were evaluated over the temperature range 293 to 773 K by performing compression tests at constant strain rate. The temperature dependence of the yield stress gives evidence of two temperature regimes with a transition temperature at approximately 423 K. Strain-rate sensitivity measurements support the change in rate-controlling deformation mechanisms at this temperature. It is proposed that cross-slip and/or climb mechanism control plastic flow. Finally, it is suggested that the phase transformation of the particle contributes positively to the improvement of the mechanical properties.
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference39 articles.
1. The fracture toughness and fatigue behavior of DRA
2. Level set simulations of dislocation-particle bypass mechanisms
3. 30 Kenzari S. : Development and characterization of metal-complex intermetallic nano-composites. PhD. Thesis, Nancy, Institut National Polytechnique de Lorraine, 2006
4. Stress Relaxation in Crystals
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