Jan Romberg scite author profile

Co-deformation of Al and Ti by accumulative roll bonding (ARB) with intermediate heat treatments is utilized to prepare multi-layered Ti/Al sheets. These sheets show a high specific strength due to the activation of various hardening mechanisms imposed during deformation, such as: hardening by grain refinement, work hardening and phase boundary hardening. The latter is even enhanced by the confinement of the layers during deformation. The evolution of the microstructure with a special focus on grain refinement and structural integrity is traced, and the correlation to the mechanical properties is shown.

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Ti-Al Composite Wires with High Specific Strength

Marr

Freudenberger

Seifert

et al. 2011

Metals

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An alternative deformation technique was applied to a composite made of titanium and an aluminium alloy in order to achieve severe plastic deformation. This involves accumulative swaging and bundling. Furthermore, it allows uniform deformation of a composite material while producing a wire which can be further used easily. Detailed analysis concerning the control of the deformation process, mesostructural and microstructural features and tensile testing was carried out on the as produced wires. A strong grain refinement to a grain size of 250-500 nm accompanied by a decrease in 111 fibre texture component and a change from low angle to high angle grain boundary characteristics is observed in the Al alloy. A strong increase in the mechanical properties in terms of ultimate tensile strength ranging from 600 to 930 MPa being equivalent to a specific strength of up to 223 MPa / g /cm 3 was achieved.Metals 2011, 1 80

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Jan Romberg

Localizing sources of acoustic emission during the martensitic transformation

Ti/Al Multi-Layered Sheets: Accumulative Roll Bonding (Part A)

Ti-Al Composite Wires with High Specific Strength

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