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Weijuan Li, Shengshi Zhao, Hengyi Zhang and Xiaolong Jin

Treatment 39 , 376-383 (1997). [57] 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 to the memory of Professor Ting-Sui Kê, Acta Metallurgica Sinica 39 , 1145-1152 (2003). [58] L.B. Magalas, The Snoek-Köster (SK) relaxation and dislocation-enhanced Snoek effect (DESE) in deformed iron, Sol. St. Phen. 115 , 67-72 (2006). [59] L.B. Magalas, Determination of the logarithmic

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

, Recent advances in determination of the logarithmic decrement and the resonant frequency in low-frequency mechanical spectroscopy, Sol. St. Phen. 137 , 15-20 (2008). [22] L.B. Magalas, M. Majewski, Ghost internal friction peaks, ghost asymmetrical peak broadening and narrowing. Misunderstandings, consequences and solution, Mater. Sci. Eng. A 521-522 , 384-388 (2009). [23] 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

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M. Majewski and L.B. Magalas

) in high-purity iron doped with different amounts of carbon, J. de Phys. 48 , 185-190 (1987). [17] T.O Ogurtani, A. Seeger, Nonlinear theory of the dislocation-enhanced Snoek effect and its connection with the geometric and/or thermal kink oscillations on nonscrew dislocations in body-centered-cubic metals, J. Appl. Phys. 69 , 3704-3711 (1987). [18] 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

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J.R.S. Martins, R.O. Araújo, R.A. Nogueira and C.R. Grandini

presence of kinks moving harmonically in anisotropic body-centered-cubic metals, Phys. Rev. B 31, 5044-5057 (1985). [35] J. Rubianes, L.B. Magalas, G. Fantozzi, J. San Juan, The dislocation-enhanced Snoek effect (DESE) in high purity iron doped with different amounts of carbon, Journal de Physique 48, 185-190 (1987). [36] L.B. Magalas, The Snoek-Köster (SK) relaxation and dislocation-enhanced Snoek effect (DESE) in deformed iron, Sol. St. Phen. 115, 67-72 (2006). [37] G. Schoeck, The cold work peak, Scripta Metall. 16, 233

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L.B. Magalas

. Letters 102 , 093111 (2013). [31] L.B. Magalas, M. Majewski, Free Decay Master Software Package, (2014). [32] D.J. Tweten, Z. Ballard, B.P. Mann, Minimizing error in the logarithmic decrement method through uncertainty propagation, J. Sound and Vibration 333 , 2804-2811 (2014). [33] 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 to the memory of Professor Ting-Sui Kê, Acta

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W.B. Jiang, Q.P. Kong, L.B. Magalas and Q.F. Fang

relaxations in coupled systems, J. Alloy Compd. 211-212 , 327-332 (1994). [20] L.B. Magalas, Snoek-Köster relaxation. New insights - New paradigms, J. Phys. IV 6 , 163-172 (1996).

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L.B. Magalas and M. Majewski

REFERENCES [1] K.L. Ngai, Y.N. Wang, L.B. Magalas, Theoretical basis and general applicability of the coupling model to relaxations in coupled systems, J. Alloy Compd. 211/212 , 327-332 (1994). [2] L.B. Magalas, Snoek-Köster relaxation. New insights – New paradigms, J. Phys. IV 6 , 163-172 (1996). [3] M.S. Blanter, L.B. Magalas, Strain-induced interaction of dissolved atoms and mechanical relaxation in solid solutions. A review, Sol. St. Phen. 89 , 115-139 (2003). [4] A.S. Nowick, B.S. Berry, Anelastic Relaxation in Crystalline Solids