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New Topics

New Topics. Fe-Ga Magnetic Shape Memory Effect Gd Compounds, Gd-Si RE Metals Sm, Tm MEP. FeGa ?. N. Srisukhumbowornchai and S. Guruswamy Journal of Applied Physics 90( 2001 ) 5680.

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New Topics

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  1. New Topics • Fe-Ga • Magnetic Shape Memory Effect • Gd Compounds, Gd-Si • RE Metals Sm, Tm • MEP M.Rotter „Magnetostriction“ Course Lorena 2007

  2. FeGa ? • N. Srisukhumbowornchai and S. Guruswamy Journal of Applied Physics 90( 2001) 5680 Latticeparameter plots of solute element content in Fe: (   ) Fe–Alalloys, (  ) Fe–Be alloys, and (×) Fe–Ga alloys Magnetostriction curves of (a) Fe–15 at. %Ga, directionally cast (DS) and heat treated at 600 °C for1 h and (b) Fe–15 at. % Ga–5 at. % Al, directionallycast (DS) and heat treated at 1100 °C for 1 hand 730 °C for 1 h M.Rotter „Magnetostriction“ Course Lorena 2007

  3. M.Rotter „Magnetostriction“ Course Lorena 2007

  4. R. Grössinger, R. Sato, H. Müller, S. Heiss, 2006 M.Rotter „Magnetostriction“ Course Lorena 2007

  5. Magnetic Shape Memory Effect Ferromagnetic shape memory alloys (FSMA) are smart materials possessing not only ferromagnetic as well as thermal shape memory properties but also large magnetic field induced strains. In single crystalline Ni2MnGa bulk material, strains as large as 10% have been realized.  Principle of magnetic field induced re-orientation of martensitic variants. M.Rotter „Magnetostriction“ Course Lorena 2007

  6. TN= 127 K TC= 81 K Gd5(SixGe1-x)4 Morellon et. al. 2000 O(I) O(II) Morellon et. al. 2000 M.Rotter „Magnetostriction“ Course Lorena 2007

  7. Samarium Magnetization K. McEwen et al. J. Phys. F: Metal Phys.4 (1974) 2264 M.Rotter „Magnetostriction“ Course Lorena 2007

  8. Samarium Thermal Expansion M.Rotter „Magnetostriction“ Course Lorena 2007

  9. Samarium Magnetostriction M.Rotter „Magnetostriction“ Course Lorena 2007

  10. Tm TN=54K ? From Zochowski et al.[cap dilatometry J. Magn. Magn. Mat. 104-107, 1515 (1992). ]. .... Strongly anisotropic Systems have to be measured with great care !!! M.Rotter „Magnetostriction“ Course Lorena 2007

  11. Tm Forced magnetostriction of Tm a single crystal. Circles represent the data measured by Zochowski et al.[cap dilatometry J. Magn. Magn. Mat. 104-107, 1515 (1992). ]. Squares represent the data obtained by Barcza. [TU Vienna]. Crosses represent the neutron diffraction data obtained at IN12. Triangles the data obtained by A. Lindbaum glueing the sample [TU Vienna]. M.Rotter „Magnetostriction“ Course Lorena 2007

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