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R. Schaller

REFERENCES [1] R. Schaller, G. Fantozzi, G. Gremaud (Eds.), Mechanical Spectroscopy Q −1 2001, Materials Science Forum 366-368 (2001). [2] P. Millet, R. Schaller, W. Benoit, Characteristic internal friction spectrum of grey cast iron, J. Physique 42 , C5, 929-934 (1981). [3] P. Millet, R. Schaller, W. Benoit, High damping in grey cast iron, J. Physique 46 , C10, 405-408 (1985). [4] C. Mayencourt, R. Schaller, A high-damping magnesium matrix to limit fatigue in composite, J. of Reinforced Plastics and Composites 18 , 1677-1688 (1999

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Xiaohui Lu, Wei Li, Xianwen Lu, Mingjiang Jin, Na Min and Xuejun Jin

of Structural Defects in Crystalline Solids, North-Holland Publishing Company, 1972. [9] M.S. Blanter, I.S. Golovin, H. Neuhauser, H.R. Sinning, Internal Friction in Metallic Materials: A Handbook, Springer, pp.12-23, 2007. [10] G. Gremaud, Dislocation-point defect interactions, Materials Science Forum 366-368 , 178-246 (2001). [11] L.B. Magalas, On the interaction of dislocations with interstitial atoms in BCC metals using mechanical spectroscopy: the Cold Work (CW) peak, the Snoek-Köster (SK) peak, and the Snoek-Kê-Köster (SKK) peak. Dedicated

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Xuebang Wu and Changsong Liu

REFERENCES [1] A.S. Nowick, B.S. Berry, Anelastic Relaxation in Crystalline Solids, Academic Press, New York, (1972). [2] F.Q. Zu, Z.G. Zhu, L.J. Guo, X.B. Qin, H. Yang, W.J. Shan, Observation of an anomalous discontinuous liquid-structure change with temperature, Phys. Rev. Lett. 89 , 125505 (2002). [3] R. Cantelli, The roots and the future of mechanical spectroscopy, Mater. Sci. Eng. A 442 , 5-20 (2006). [4] X.B. Wu, Q.L. Xu, J.P. Shui, Z.G. Zhu, Low-frequency mechanical spectroscopy study of conformational transition of polymer chains

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M.R. Silva, L.B.S. Silva, D. Rodrigues Junior and C.R. Grandini

References [1] J. Nagamatsu, N. Nakagawa, T. Muranaka, Y. Zenitani, J. Akimitsu, Superconductivity at 39 K in magnesium diboride, Nature 410, 63-64 (2001). [2] A.S. Nowick, B.S. Berry, Anelastic Relaxation in Crystalline Solids, Academic Press, New York, 1972. [3] R. De Batist, Internal Friction of Structural Defects in Crystalline Solids, North-Holland, Amsterdam, 1972. [4] L.B. Magalas, Mechanical spectroscopy - Fundamentals, Sol. St. Phen. 89, 1-22 (2003). [5] S. Etienne, S

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Bożena Malesa, Anna Antolak-Dudka, Dariusz Oleszak and Tomasz Pikula

coupling in single-phase BaTiO 3 -BiFeO 3 system. J. Appl. Phys ., 113 , 144101-1-5. DOI: 10.1063/1.4799591. 7. Jartych, E., Malesa, B., Antolak-Dudka, A., & Oleszak, D. (2014). Mössbauer spectroscopy studies of multiferroic (BiFeO 3 ) 1-x -(BaTiO 3 ) x solid solutions prepared by mechanical activation. Acta Phys. Pol. A , 125 (3), 837–839. DOI: 10.12693/APhysPolA.125.837. 8. Malesa, B., & Mazurek, M. (2014). Hyperfine interactions in (BiFeO 3 ) 0.9 -(BaTiO 3 ) 0.1 ceramics prepared by mechanical activation. Informatyka, Automatyka, Pomiary w Gospodarce i

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L.B. Magalas

REFERENCES [1] L.B. Magalas, M. Majewski, Toward high-resolution mechanical spectroscopy HRMS. Logarithmic decrement, Sol. St. Phen. 184 , 467-472 (2012). [2] L.B. Magalas, M. Majewski, Toward high-resolution mechanical spectroscopy HRMS. Resonant frequency – Young’s modulus, Sol. St. Phen. 184 , 473-478 (2012). [3] M. Majewski, A. Piłat, L.B. Magalas, Advances in computational high-resolution mechanical spectroscopy HRMS. Part 1 – Logarithmic decrement, IOP Conf. Series: Materials Science and Engineering 31 , 012018 (2012). [4] M

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P.S. Silva, J.C.C.A. Diaz, O. Florêncio, M. Venet and J.C. M’Peko

, 3729-3740 (2012). [9] O. Florencio, P.S. da Silva, J.A. Eiras, D. Garcia, E.R. Botero, Study of the Anelastic Behavior of PZT and PLZT Ferroelectric Ceramics, Defect and Diffusion Forum 326-328, 719-724 (2012). [10] P.S. Silva Jr., O. Florêncio, E.R. Botero, J.A. Eiras, D. Garcia, Phase transition study in PLZT ferroelectric ceramics by mechanical and dielectric spectroscopies, Materials Science and Engineering. A, Structural Materials: properties, microstructure and processing, 521-522, 224-227 (2009). [11] A.S. Nowick

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N. Min, H.M. Li, CH. Xie and X.C. Wu

, Mechanical spectroscopy and other relaxation spectroscopies, Sol. St. Phen. 89 , 31-66 (2003). [18] L.B. Magalas, Mechanical spectroscopy – Fundamentals, Sol. St. Phen. 89 , 1-22 (2003). [19] L.B. Magalas, Determination of the logarithmic decrement in mechanical spectroscopy, Sol. St. Phen. 115 , 7-14 (2006). [20] L.B. Magalas, A. Stanisławczyk, Advanced techniques for determining high and extreme high damping: OMI – A new algorithm to compute the logarithmic decrement, Key Eng. Materials 319 , 231-240 (2006). [21] L.B. Magalas, M. Majewski

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Xiu Sheng Wu, Ju Fang Cao, Zhi Jun Chen and Wei Liu

deformation behavior of La 0.6 Sr 0.4 FeO 3 perovskite, J. App. Phys. 100 , 026102 (2006). [16] A.S. Nowick, B.S. Berry, Anelastic Relaxation in Crystalline Solids, Academic Press, New York, 1972. [17] R. De Batist, Internal Friction of Structural Defects in Crystalline Solids, North-Holland, Amsterdam, 1972. [18] L.B. Magalas, Mechanical spectroscopy – Fundamentals, Sol. St. Phen. 89 , 1-22 (2003). [19] S. Etienne, S. Elkoun, L. David, L.B. Magalas, Mechanical spectroscopy and other relaxation spectroscopies, Sol. St. Phen. 89 , 31-66 (2003

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Elżbieta Jartych, Agata Lisinska-Czekaj, Dariusz Oleszak and Dionizy Czekaj

.V., Srivastava J.K., Iyengar P.K., Bhargava S.C., Advances in Mössbauer Spectroscopy. Applications to Physics, Chemistry and Biology, Elsevier Scientific Publishing Company, Amsterdam-Oxford-New York, 1983. [23] De Sitter J., Dauwe C., De Grave E., Govaert A., Solid State Commun., 18(5) (1976), 645. http://dx.doi.org/10.1016/0038-1098(76)91502-7 [24] Mackenzie K.J.D., Dougherty T., Barrel J., J. Europ. Ceramic Soc., 28 (2008), 499. http://dx.doi.org/10.1016/j.jeurceramsoc.2007.03.012 [25] Cornell R