Vibration damping material employing magnetic shape memory alloys

Canadian Institute of Mining, Metallurgy and Petroleum

R. Ham-Su J. P. Healey R. S. Underhill S. P. Farrell L. M. Cheng C. V. Hyatt M. A. Gharghouri

Organization:: Canadian Institute of Mining, Metallurgy and Petroleum
Pages:: 13
File Size:: 2296 KB
Publication Date:: Jan 1, 2004

Abstract

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Magnetic shape memory alloys (MSMA's) are a class of materials where magnetic energy can be converted into mechanical energy and vice versa. NiMnGa-based MSMA's have attained magnetic field induced strains up to approximately 10% and have a relatively wide operating temperature range, from well below 0°C to above RT, making them very attractive for a variety of applications. However, these materials also suffer from low toughness. Using these materials in a composite could mitigate this shortcoming, and also overcome limits imposed by inertia and eddy current losses. In this work, we describe the manufacture and characterization of such composites. Composites with 30% by volume MSMA were fabricated under a magnetic field resulting in anisotropic magnetic properties. Damping properties were evaluated by dynamic mechanical analysis.

Citation

APA: R. Ham-Su J. P. Healey R. S. Underhill S. P. Farrell L. M. Cheng C. V. Hyatt M. A. Gharghouri (2004) Vibration damping material employing magnetic shape memory alloys

MLA: R. Ham-Su J. P. Healey R. S. Underhill S. P. Farrell L. M. Cheng C. V. Hyatt M. A. Gharghouri Vibration damping material employing magnetic shape memory alloys. Canadian Institute of Mining, Metallurgy and Petroleum, 2004.

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