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Purpose: The aim of this work is to obtain polyurethane matrix composite materials reinforced by Tb0.3Dy0.7Fe1.9particles and to observe changes of magnetic properties and magnetostriction of samples with different particle size distributions of Tb0.3Dy0.7Fe1.9 powder. Design/methodology/approach: Polyurethane matrix composite materials reinforced by Tb0.3Dy0.7Fe1.9 magnetostrictive particles fabricating method were developed during the investigations, making possible to obtain materials with good physical properties. The influence of the concentration and powder particles size of the Td0.3Dy0.7Fe1.9 on magnetic and magnetostrictive properties were estimated. Metallographic examination of powders morphology and the structure observations of composite materials were made. Findings: Composite materials consisting of Td0.3Dy0.7Fe1.9 particles can extend the possibilities of application the magnetostrictive materials and reduce the cost of their manufacturing. The obtained materials show regular distribution of Td0.3Dy0.7Fe1.9 powder in polyurethane matrix. Research limitations/implications: The advantage of polyurethane matrix magnetostrictive composite materials are their simple technology and lowering manufacturing cost in comparison to monolithic Td0.3Dy0.7Fe1.9. These efforts can be considered as very up-to-date from the scientific point of view. Originality/value: The originality of this investigations is the statement that increasing the size of the Td0.3Dy0.7Fe1.9 particles cause increasing the strain response and this is due to the demagnetization effects.
Wydawca
Rocznik
Tom
Strony
527--532
Opis fizyczny
Bibliogr. 21 poz., rys., tab., wykr.
Twórcy
autor
- Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
- Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
- Institute of Physics, Polish Academy of Sciences, Al. Lotników 32/46, 02-668 Warszawa, Poland
autor
- Institute of Physics, Polish Academy of Sciences, Al. Lotników 32/46, 02-668 Warszawa, Poland
Bibliografia
- [1] A.G. Olabi, A. Grunwald, Design and application of magnetostrictive materials, Materials and Design 29 (2008) 469-483.
- [2] B.D Cullity, C.D. Graham, Introduction to magnetic materials, Willey IEEE Press, 2009.
- [3] D.J. Leo, Engineering analysis of Smart Material Systems, John Wiley and Sons Inc., 2007.
- [4] M. Palit, J.A. Chelvane, S. Pandian, M.M. Raja, V. Chandrasekaran, Phase relationship, magnetic propeties and Mössbauer studies in as cast and directionally solidified Td0.3Dy0.7Fe1.95, Materials Characterization 60 (2009) 40-43.
- [5] L. Wu, W. Zhan, X. Chen, Microsegregation phenomenon in Terfenol-D rods grown by electron beam zoning method, Journal of Alloys and Compounds 255 (1997) 262-265.
- [6] W. Wu, M. Zhang, X. Gao, S. Zhou, Effect of two-steps heat treatment on the mechanical properties and magnetostriction of <110> oriented TbDyFe giant magnetostrictive material, Journal of Alloys and Compounds 416 (2006) 256-260.
- [7] G.P. McKnight, G.P. Carman, Large magnetostriction in Terfenol-D particulate composites with preferred 112 orientation, Smart Structures and Materials 2001: Active Materials, Proceeding of SPIE 4333 (2001) 178-183.
- [8] T.A. Duenas, G.P. Carman, Large magnetostrictive response of Terfenol-D resin composites, Journal of Applied Physics 87/9 (2000) 4696-4701.
- [9] L.A. Dobrzański, A. Tomiczek, B. Tomiczek, A. Ślawska-Waniewska, O. Iesenchuk, Polymer matrix composite materials reinforced by Tb0.3Dy0.7Fe1.9 magnetostrictive particles, Journal of Achievemensts in Materials and Manufacturing Engineering 37/1 (2009) 16-23.
- [10] X. Guan, X. Dong, J. Ou, Magnetostrictive effect of magnetorheological elastomer, Journal of Magnetism and Magnetic Materials 320 (2008) 158-163.
- [11] R. Nowosielski, Soft magnetic polymer - metal composites consisting of nanostructural Fe-basic powders, Journal of Achievements in Materials and Manufacturing Engineering 24/1 (2007) 68-77.
- [12] F. Fiorillo, Measurement and characterization of magnetic materials, Elsevier Series in Electromagnetism, Amsterdam, Boston, Heidelberg, London, New York, Oxford, Paris, San Diego, San Francisco, Singapore, Sydney, Tokyo, 2004.
- [13] O.Y. Kwon, K.H. Kim, M.K. Yu, S.H. Hong, Fabrication process and magnetostriction of infiltrated Terfenol-D / poxy composite, Key Engineering Materials 334-335 (2007) 1121-1124.
- [14] X. Lu, H. Li, Magnetic properties of Terfenol-D film on a compliant substrate, Journal of Magnetism and Magnetic Materials 322 (2010) 2113-2116.
- [15] C. Rodríguez, M. Rodriguez, I. Orue, J.L. Vilas, J.M Barandiarán, M.L.F. Gubieda, L.M. Leon, New elastomer - Terfenol-D magnetostrictive composites, Sensors and Actuators A 149 (2009) 251-254.
- [16] N. Nersessian, S.-W. Or, G.P. Carman, Magneto-thermo-mechanical characterization of 1-3 type polymer-bonded Terfenol-D composites, Journal of Magnetism and Magnetic Materials 263 (2003) 101-112.
- [17] X. Dong M. Qi, X. Guan, J. Ou, Microstructure analysis of magnetostrictive composites, Polymer Testing 29 (2010) 369-374.
- [18] X. Guan, X. Dong, J. Ou, Predicting performance of polymer-bonded Terfenol-D composites under different magnetic field, Journal of Magnetism and Magnetic Materials 321 (2009) 2742-2748.
- [19] L.A. Dobrzański, A. Wydrzyńska, O. Iesenchuk, Intelligent epoxy matrix composite materials consisting of Tb0.3Dy0.7Fe1.9 magnetostrictive particulates, Archives of Materials Science and Engineering 35/1 (/2009) 33-38.
- [20] B. Kundys, Y. Bukhantsev, S. Vasiliev, D. Kundys, M. Berkowski, V.P. Dyakonov, Three terminal capacitance technique for magnetostriction and thermal expansion measurements, Review of Scientific Instruments 75/6 (2004) 2192-2196.
- [21] N. Tsuya, K.I. Arai, K. Ohmori, Y. Shiraga, Magnetostriction measurement by three terminal capacitance method, Japanese Journal of Applied Physics 13 (1974) 1808-1810.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d913a75d-2cd0-4a62-ae89-1c8e09427b34