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prin tehnica cromatografiei in strat subtire (TLC) indica faptul ca acestia sufera unele<br />
modificari sterice, intrucat apar spoturi intermediare, functie <strong>de</strong> timpul <strong>de</strong> adsorbtie.<br />
7. S-au facut iradieri gama pe vitroceramicile magnetice la o doza <strong>de</strong> cca 668 kGy<br />
si s-a analizat <strong>de</strong>pen<strong>de</strong>nta rezultatelor <strong>de</strong> nucleatorii utilizati. Concluzia este ca probele<br />
<strong>de</strong> granulatie fina (produse cu P2O5) sunt foarte sensibile la iradiere iar cele <strong>de</strong><br />
dimensiune mare au variatii ale magnetizarii specifice <strong>de</strong> cca 15%.<br />
8. S-au produs nanocentri <strong>de</strong> oxizi <strong>de</strong> fier <strong>de</strong> dimensiuni <strong>de</strong> ordinul 10 nm in<br />
matrice <strong>de</strong> MgB2 prin utilizarea <strong>de</strong> polimeri preceramici si s-a analizat posibilitatea<br />
utilizarilor si in cresterea <strong>de</strong>nsitatii critice <strong>de</strong> curent in transportul <strong>de</strong> sarcina electrica.<br />
Bibliografie<br />
1. M. Bosnes, A. Deggerdal, A. Rian, L. Korsnes, and F. Larsen, in Scientific and Clinical<br />
Applications of Magnetic Cariers edited by U.O.Häfeli, W. Schütt, J. Teller, and M.<br />
Zborowski, Chapter 19, New York (1997).<br />
2. Y.-K. Lee and S.–Y. Choi, J. Am. Ceram. 79, 992 (1996)<br />
3. R. Muxworthy and E. McClelland, Geophys. J. Int. 140, 101 (2000)<br />
4. Bretcanu, S. Spriano, E. Verne, M. Coisson, P Tiberto, P. Allia, Acta Biomaterialia, 1<br />
421 (2005).<br />
5. P. Pisciella and M Pelino, J. Eur. Ceram. Soc. 25 1855 (2005); J. Eur. Ceram. Soc., 28<br />
3021 (2008)<br />
6. Bretcanu, E. Verne, M. Coisson, P Tiberto, P. Allia; J. Magn. Magn. Mater. 300, 412<br />
(2006).<br />
7. R. K. Singh, G. P. Kothiyal and A. Srinivasan, J. Magn. Magn. Mater. 320, 1352<br />
(2008).<br />
8. M. Romero et al., J. Mater. Sci., 43 4135 (2008)<br />
9. K. Sharma et al., J. Magn. Magn. Mater. 321 3821 (2009)<br />
10.J. P. Shepherd et al., Phys. Rev. B 43, 8461 (1991).<br />
11.R. Muller: J.Eur. Ceram. Soc., 19, 1547, (1999).<br />
12.V. Wagner et al., Physica B Vol. 345, 169 (2004).<br />
13.R. D. Rawlings, Glass-Ceramic Materials-Fundamentals and Applications Series of<br />
Monographs on Material Science, Engineering and Technology, Mucchi Editore,<br />
Mo<strong>de</strong>na, 1997, pp. 115-133.<br />
14.F. F. Bentley, L. D. Smithson, and A. L. Rozek, Infrared Spectra and Characteristic<br />
Frequencies 700-300 cm -1 , Interscience, New York (1968)<br />
15. E. I. Kamitsos, M. A. Karakassi<strong>de</strong>s, and G. D. Cryssikos, J. Phys. Chem. 91, 1073<br />
(1987).<br />
16.W. F. Brown, Jr, J. Appl. Phys. 39, 993 (1968)<br />
17.A. R. Muxworthy and E. McClelland, Geophys. J. Int. 140, 101 (2000).<br />
18.J. Wang et al., Mat. Chem. Phys. 13, 6 (2009)<br />
19.K. J. Wynne and R. W. Rice, Ann. Rev. Mater. Sci. 14, 297 (1984).<br />
20.M. Peuckert, T. Vaahs, and M. Brück, Adv. Mater. 2, 398 (1990).<br />
21.P. Colombo and J.R. Hellmann, Mater. Res. Innovat. 6, 260 (2002).<br />
22.R. Melcher et al., J. Am. Ceram. Soc., 86, 1211 (2003).<br />
23.M. Av<strong>de</strong>ev et al., Physica C, 387 301 (2003).<br />
24.N. Askerza<strong>de</strong>, A. Gencer, and N. Güçlü, Supercond. Sci. Technol. 15, L13 (2002).<br />
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