Structure and Multistage Martensite Transformation in Nanocrystalline Ti-50.9Ni Alloy
Autor: | Svetlana L. Girsova, Andrej N. Kudryachov, Tamara M. Poletika, Aleksander I. Lotkov, Natalya V. Girsova |
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Rok vydání: | 2021 |
Předmět: |
Mining engineering. Metallurgy
Morphology (linguistics) Nanostructure Materials science Condensed matter physics Precipitation (chemistry) Annealing (metallurgy) grain–subgrain structure Alloy TN1-997 Metals and Alloys Nanoparticle engineering.material Nanocrystalline material martensite transformations Martensite nanocrystalline TiNi alloy engineering Ti3Ni4 particles annealing General Materials Science |
Zdroj: | Metals Volume 11 Issue 8 Metals, Vol 11, Iss 1262, p 1262 (2021) |
ISSN: | 2075-4701 |
DOI: | 10.3390/met11081262 |
Popis: | An electron microscopic study of the evolution of the size, morphology, and spatial distribution of coherent Ti3Ni4 particles with a change in the aging temperature in a nanocrystalline (NC) Ti-50.9 at % Ni alloy with an inhomogeneous grain–subgrain B2-austenitic nanostructure has been carried out. It was found that with an increase in the aging temperature, along with a change in the size and shape of Ti3Ni4 nanoparticles, their spatial distribution changes from location at dislocations to precipitates at subboundaries. Research has shown that the presence of different types of internal interfaces in the nanostructure contributes to the heterogeneous distribution of coherent Ti3Ni4 nanoparticles in the volume of the B2 matrix, which is associated with the precipitation of particles in the region of low-angle subboundaries and the suppression of the Ti3Ni4 precipitation in nanograins with high-angle boundaries. The difference in the structural-phase state of nanograins and subgrains regions is the main reason for the implementation of the anomalous R-phase transformation effect in the sequence of multistage martensitic transformations B2↔R↔B19′. |
Databáze: | OpenAIRE |
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