The development of recrystallization textures in F.C.C. metals with a low stacking fault energy
نویسندگان
چکیده
منابع مشابه
Continuum understanding of twin formation near grain boundaries of FCC metals with low stacking fault energy
Deformation twinning from grain boundaries is often observed in face-centered cubic metals with low stacking fault energy. One of the possible factors that contribute to twinning origination from grain boundaries is the intergranular interactions during deformation. Nonetheless, the influence of mechanical interaction among grains on twin evolution has not been fully understood. In spite of ext...
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Twenty-one ^110& symmetric tilt grain boundaries ~GB’s! are investigated with atomistic simulations, using an embedded-atom method ~EAM! potential for a low stacking-fault energy fcc metal. Lattice statics simulations with a large number of initial configurations are used to identify both the equilibrium and metastable structures at 0 K. The level of difficulty in finding the equilibrium struct...
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Starting from a semi-empirical potential designed for Cu, we have developed a series of potentials that provide essentially constant values of all significant (calculated) materials properties except for the intrinsic stacking fault energy, which varies over a range that encompasses the lowest and highest values observed in nature. These potentials were employed in molecular dynamics (MD) simul...
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Understanding flow localization in materials containing high concentrations of Stacking Fault Tetrahedra (SFT’s) depends on delineation of the mechanisms by which they are destroyed as effective dislocation obstacles. The elastic interaction between glissile dislocations and SFT’s in FCC metals is examined, both analytically and numerically. Numerical calculations are performed for both full an...
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ژورنال
عنوان ژورنال: Acta Metallurgica
سال: 1975
ISSN: 0001-6160
DOI: 10.1016/0001-6160(75)90122-4