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The effect of grain and phase boundary misorientation on nucleation during solid-state phase transformations in a Co-15Fe alloy

(2009) CERAMIC TRANSACTIONS. 201. p.305-311
Author
Organization
Abstract
The nucleation process strongly influences the phase transformation kinetics that determine the final microstructure and thereby the mechanical properties of the material. The role of grain and phase boundary misorientations during the solid-state nucleation of a BCC phase in a FCC phase has been investigated. 3D EBSD measurements were performed on a Co-15Fe alloy with both the FCC and BCC phases stable at room temperature in order to measure the crystallographic orientation of the BCC precipitates and FCC grains and the orientation relationship between the FCC and BCC crystallites. In this paper the preliminary results from the analysis of the data show that specific orientation relationships between BCC and FCC crystal structures play an important role during this process.
Keywords
FERRITE NUCLEATION, CR-NI ALLOY

Citation

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Chicago
Landheer, H, SE Offerman, Leo Kestens, T Takeuchi, M Enomoto, and Y Adachi. 2009. “The Effect of Grain and Phase Boundary Misorientation on Nucleation During Solid-state Phase Transformations in a Co-15Fe Alloy.” In Ceramic Transactions, ed. AD Rollett, 201:305–311. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons.
APA
Landheer, H., Offerman, S., Kestens, L., Takeuchi, T., Enomoto, M., & Adachi, Y. (2009). The effect of grain and phase boundary misorientation on nucleation during solid-state phase transformations in a Co-15Fe alloy. In A. Rollett (Ed.), CERAMIC TRANSACTIONS (Vol. 201, pp. 305–311). Presented at the 15th International conference on the Texture of Materials (ICOTOM 15), Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons.
Vancouver
1.
Landheer H, Offerman S, Kestens L, Takeuchi T, Enomoto M, Adachi Y. The effect of grain and phase boundary misorientation on nucleation during solid-state phase transformations in a Co-15Fe alloy. In: Rollett A, editor. CERAMIC TRANSACTIONS. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons; 2009. p. 305–11.
MLA
Landheer, H, SE Offerman, Leo Kestens, et al. “The Effect of Grain and Phase Boundary Misorientation on Nucleation During Solid-state Phase Transformations in a Co-15Fe Alloy.” Ceramic Transactions. Ed. AD Rollett. Vol. 201. Westerville, OH, USA ; Hoboken, NJ, USA: American Ceramic Society ; John Wiley & Sons, 2009. 305–311. Print.
@inproceedings{1045582,
  abstract     = {The nucleation process strongly influences the phase transformation kinetics that determine the final microstructure and thereby the mechanical properties of the material. The role of grain and phase boundary misorientations during the solid-state nucleation of a BCC phase in a FCC phase has been investigated. 3D EBSD measurements were performed on a Co-15Fe alloy with both the FCC and BCC phases stable at room temperature in order to measure the crystallographic orientation of the BCC precipitates and FCC grains and the orientation relationship between the FCC and BCC crystallites. In this paper the preliminary results from the analysis of the data show that specific orientation relationships between BCC and FCC crystal structures play an important role during this process.},
  author       = {Landheer, H and Offerman, SE and Kestens, Leo and Takeuchi, T and Enomoto, M and Adachi, Y},
  booktitle    = {CERAMIC TRANSACTIONS},
  editor       = {Rollett, AD},
  isbn         = {9780470408353},
  issn         = {1042-1122},
  keyword      = {FERRITE NUCLEATION,CR-NI ALLOY},
  language     = {eng},
  location     = {Pittsburgh, PA, USA},
  pages        = {305--311},
  publisher    = {American Ceramic Society ; John Wiley \& Sons},
  title        = {The effect of grain and phase boundary misorientation on nucleation during solid-state phase transformations in a Co-15Fe alloy},
  url          = {http://dx.doi.org/10.1002/9780470444214.ch32},
  volume       = {201},
  year         = {2009},
}

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