Lattice modulation and superelasticity in oxygen-added β-Ti alloys

Miyazaki, Shuichi; Tahara, Masaki; Kim, Hee Young; Inamura, Tomonari; Hosoda, Hideki

doi:10.1016/j.actamat.2011.06.015

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Lattice modulation and superelasticity in oxygen-added β-Ti alloys

Author(s): Masaki Tahara , Hee Young Kim , Tomonari Inamura , Hideki Hosoda , Shuichi Miyazaki

Publication date Created: September 2011

Publication date (Print): September 2011

Journal: Acta Materialia

Publisher: Elsevier BV

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Multifunctional Alloys Obtained via a Dislocation-Free Plastic Deformation Mechanism.

Glenn Furuta, Rong-Hsing Chen, Takashi Saito … (2003)

We describe a group of alloys that exhibit "super" properties, such as ultralow elastic modulus, ultrahigh strength, super elasticity, and super plasticity, at room temperature and that show Elinvar and Invar behavior. These "super" properties are attributable to a dislocation-free plastic deformation mechanism. In cold-worked alloys, this mechanism forms elastic strain fields of hierarchical structure that range in size from the nanometer scale to several tens of micrometers. The resultant elastic strain energy leads to a number of enhanced material properties.