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Textures and compressive properties of ferromagnetic shape-memory alloy Ni48Mn25Ga22Co5 prepared by isothermal forging process

Wang, Y. D., Cong, D. Y., Peng, R. Lin, Zetterstrom, P., Zhang, Z. F., Zhao, X. and Zuo, L. 2006, Textures and compressive properties of ferromagnetic shape-memory alloy Ni48Mn25Ga22Co5 prepared by isothermal forging process, Journal of materials research, vol. 21, no. 3, pp. 691-697, doi: 10.1557/jmr.2006.0079.

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Title Textures and compressive properties of ferromagnetic shape-memory alloy Ni48Mn25Ga22Co5 prepared by isothermal forging process
Formatted title Textures and compressive properties of ferromagnetic shape-memory alloy Ni48Mn25Ga22Co5 prepared by isothermal forging process
Author(s) Wang, Y. D.
Cong, D. Y.
Peng, R. Lin
Zetterstrom, P.
Zhang, Z. F.
Zhao, X.
Zuo, L.
Journal name Journal of materials research
Volume number 21
Issue number 3
Start page 691
End page 697
Total pages 7
Publisher Cambridge University Press
Place of publication New York, N. Y.
Publication date 2006-03
ISSN 0884-2914
2044-5326
Keyword(s) ferromagnetic
neutron scattering
texture
Summary A ferromagnetic shape-memory alloy Ni48Mn25Ga22Co5 was prepared by the induction melting and isothermal forging process. Dynamic recrystallization occurs during the isothermal forging. The deformation texture was studied by the neutron diffraction technique. The main texture components consist of (110)[112] and (001)[100], which suggested that in-plane plastic flow anisotropy should be expected in the as-forged condition. The uniaxial compression fracture strain in the forged alloy reaches over 9.5%. The final room-temperature fracture of the polycrystalline Ni48Mn25Ga22Co5 is controlled mainly by intergranular mode.
Language eng
DOI 10.1557/jmr.2006.0079
Field of Research 091205 Functional Materials
Socio Economic Objective 861299 Fabricated Metal Products not elsewhere classified
HERDC Research category C1.1 Refereed article in a scholarly journal
Copyright notice ©2006, Materials Research Society
Persistent URL http://hdl.handle.net/10536/DRO/DU:30047828

Document type: Journal Article
Collection: Institute for Frontier Materials
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