Journal
PHYSICAL MESOMECHANICS
Volume 26, Issue 5, Pages 483-494Publisher
SPRINGER
DOI: 10.1134/S1029959923050016
Keywords
nanostructured titanium; severe plastic deformation; superstrength; strengthening mechanisms
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This paper discusses the formation of ultrafine-grained structure and nanosized second-phase precipitates in commercially pure Grade 4 titanium subjected to severe plastic deformation and subsequent heat treatment. It was found that the combined processing of Grade 4 titanium provides very high tensile strength, which is attributed to multiple strengthening mechanisms.
This paper discusses the formation of ultrafine-grained (UFG) structure and nanosized second-phase precipitates in commercially pure Grade 4 titanium subjected to severe plastic deformation by high pressure torsion at room temperature with subsequent heat treatment. It was found that the combined processing of Grade 4 titanium provides very high tensile strength (sigma(B) approximate to 1500 MPa), which significantly exceeds the previous results for this material. Analysis of the strengthening mechanisms showed that the superstrength of commercially pure titanium is due to several factors: UFG structure formation, dispersion strengthening from second-phase nanoparticles, high dislocation density, and grain boundary segregation. The contribution of these strengthening mechanisms is evaluated and compared with experimental data.
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