Abstract
The glass transition behavior of a La 55Al 25Ni 20 amorphous alloy was examined through the changes in the storage, E′, and loss, E″, moduli obtained by a forced oscillation method. Two distinguishable relaxation peaks are observed in the glass transition region, although these are not resolved in calorimetric measurements. At a frequency of 62.8 rad/s, E″ shows two peaks at 483 and 507 K. As the frequency decreases, the splitting of the two peaks becomes distinct and their peak temperatures shift to a lower value. The change in E″ with frequency also shows the two relaxation peaks. A master curve of E″ is derived by using the time-temperature superposition process. This is the first master curve for the relaxation spectrum in the glass transition region for amorphous alloys. The activation energies evaluated from the shift factors are 400 and 550 kJ/mol for the lower and higher temperature peaks, respectively.
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