Microstructure Evolution and Tensile Properties of Pure Ti Subjected to Rapidly Heating and Quenching

Abstract

Abstract: The pure α-Ti samples were heated at an extremely high rate (~106 K/s) to the temperature of β phase zone followed by a rapidly quenching in an electro-pulsing treatment. After the treatment, micrometer-thick lamellar substructures were generated within the original equiaxed α-Ti coarse grains. Misorientations across adjacent lamellae are of a few degrees. The ultrafine lamellar substructures originated from a non-equilibrium α-β-α' phase transformation during rapidly heating-quenching process with a short exposure time at high temperatures. Tensile strength was increased by about 100 MPa due to the formation of the ultrafine lamellar substructure while the same tensile plasticity (elongation-to-failure) was maintained relative to the original sample. The strengthening effect could be attributed to the effective blockage of dislocation motions by a high density of sub-boundaries.

Key words: Pure Ti, Microstructure, Properties, Rapidly heating

Weisong ZHAO, Wei ZHANG, Jinyu GUO, Boquan WANG, Jingdong GUO, Ke LU. Microstructure Evolution and Tensile Properties of Pure Ti Subjected to Rapidly Heating and Quenching[J]. J Mater Sci Technol, 2006, 22(02): 190-194.

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Microstructure Evolution and Tensile Properties of Pure Ti Subjected to Rapidly Heating and Quenching

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