Characterization of face-centered cubic structure and deformation mechanisms in high energy shot peening process of TC17
Autor: | C.L. Yang, Y.G. Liu, Mingxing Li |
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Rok vydání: | 2022 |
Předmět: |
Materials science
Polymers and Plastics Condensed matter physics Mechanical Engineering Metals and Alloys Slip (materials science) Cubic crystal system Deformation (meteorology) Shot peening Deformation mechanism Mechanics of Materials Materials Chemistry Ceramics and Composites Partial dislocations Crystal twinning Burgers vector |
Zdroj: | Journal of Materials Science & Technology. 110:136-151 |
ISSN: | 1005-0302 |
DOI: | 10.1016/j.jmst.2021.08.059 |
Popis: | The face-centered cubic structure (fcc) and its deformation behaviors, as well as the distinctive role of fcc-Ti in nanocrystallization in TC17 subjected to high energy shot peening (HESP), were investigated by using comprehensive high-resolution transmission electron microscopy (HRTEM). The results showed that there was a stress-induced fcc-Ti in TC17 with a lattice constant of 0.420-0.433 nm and the B-type orientation relationship between the hcp-Ti and the fcc-Ti as [20]hcp//[10]fcc and (0001)hcp//(111)fcc, which was accomplished by the gliding of Shockley partial dislocations with Burgers vector of 1/3[010] on the basal plane. The deformation twinning dominated the subsequent deformation of fcc-Ti, producing two types of {111} twins with different characteristics. Among them, the I-type twin with complete structure was generated by successive gliding of Shockley partial dislocations with the same Burgers vector of 1/6[11]. In contrast, the cooperative slip of three Shockley partials, whose sum of Burgers vectors was equal to zero, produced the II-type twin with zero net macroscopic strain. And then, the emission of Shockley partial with the Burgers vector of 1/6[11] on every three (111)fcc planes resulted in the formation of a 9R structure. Due to the dissociation effect of lamellar fcc-Ti and the superior deformation ability of fcc structure, the occurrence of fcc-Ti effectively promoted surface nanocrystallization of TC17. |
Databáze: | OpenAIRE |
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