Effect of Annealing on Microstructural Development and Grain Orientation in Electrodeposited Ni

Author:

Klement Uta1,Hollang L.2,Dey S.R.3,Battabyal M.1,Mishin O.V.4,Skrotzki Werner3

Affiliation:

1. Chalmers University of Technology

2. Technische Universität Dresden

3. Dresden University of Technology

4. Technical University of Denmark

Abstract

Thick (up to 5 mm) Ni electrodeposits were produced by the pulsed electrodeposition (PED) technique. The PED-Ni was investigated in planar and cross-sections using high resolution scanning electron microscopy. Grain size and local texture were studied by electron backscatter diffraction. Thermal stability and grain growth behaviour were investigated using in-situ annealing in the transmission electron microscope. It is observed that columnar grains are present in the material and that the orientation of grains is not uniform. Textures and in-situ annealing behaviour are compared to previous data on nanocrystalline PED-Ni and Ni-Fe, where a subgrain coalescence model adopted from recrystallization is used to describe the occurrence of abnormal grain growth upon annealing and where twinning was found to be responsible for the texture development.

Publisher

Trans Tech Publications, Ltd.

Subject

Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics

Reference24 articles.

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2. A.M. El-Sherik and U. Erb: J. Mater. Sci. Vol. 30 (1995), p.5743.

3. C. Suryanarayana and C.C. Koch: Hyperfine Interactions Vol. 130 (2000), p.5.

4. U. Erb, K.T. Aust and G. Palumbo, in: �anostructured Materials - Processing, Properties and Potential Applications, edited by C.C. Koch, William Andrew Publishing/Noyes, New York (2002).

5. M. da Silva and U. Klement: Z. Metallkd. Vol. 9 (2005), p.1009.

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