期刊
MATERIALS CHARACTERIZATION
卷 188, 期 -, 页码 -出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2022.111913
关键词
Architecture-based constitutive model; Strengthening efficiency; Strain hardening ability; Architecture design; Heterogeneous lamella
类别
资金
- Research & Innovation Operational Programme - ERDF [313021T081]
An architecture-based model is proposed to reveal the correlations between the architecture and strengthening mechanisms of Graphene/ aluminum (GR/Al) composites with heterogeneous lamellar (HL) architecture. The model describes the role of HL design factors in influencing the microstructural architecture and strengthening mechanisms of the material. The optimal alignment of structural elements and graphene leads to a combined effect of isotropic and kinematic strain hardening, as well as higher levels of back stress and back stress hardening.
An architecture-based model revealing the architecture-strengthening mechanism correlations of Graphene/ aluminum (GR/Al) composites with heterogeneous lamellar (HL) architecture is proposed. The microstructural features such as matrix grain size, shape, and orientation in HL GR/Al composites are drivers for the dislocation storage and strain hardening ability. The proposed model allows to describe the role of the HL design factors affecting the microstructural architecture in GR/Al composite and the strengthening mechanisms of the material. The improved mechanical properties are linked to strain hardening ability, the high dislocation storage capability of the coarse grain bands (CGBs) as well as the generation of further geometrically necessary dislocations (GNDs) in the GR/Al interfaces. Moreover, the optimal-alignment of the structural elements and GRs not only causes a combined effect of isotropic and kinematic strain hardening but also leads to higher levels of back stress and back stress hardening, respectively. Actually, the significant effect of the interfacial dislocations including GNDs on the internal stresses especially back stress, which leads to the generation of extra strain hardening is underlined. In a word, the proposed model, which is based on the dislocation induced strengthening mechanisms, enables to guide the processing-microstructure design.
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