Abstract
Mechanical loss and dynamic shear modulus measurements at high temperature (1200–1550 K) were performed on fine-grained (0.8 μm) MgO-doped alumina in the low frequency range (10 −4–10 Hz), by using a differential inverted torsion pendulum working with forced vibrations. Anelastic and viscoplastic relaxation phenomena were observed, characterized by an activation enthalpy of 840 kJ/mol. These appear as a mechanical loss peak and a viscoplastic damping background. Moreover, a stress-dependent component, activated above a “threshold”-stress amplitude of 2–4 MPa was found. The mechanical loss spectrum was analysed using classical and modified approaches and the possible mechanisms discussed in terms of a simple model invoking grain boundary dislocations.
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