An alloy containing 49 at.% aluminium was heat treated at different temperatures within the ? + ? two-phase field to get five different volume fractions of lamellar constituent. Creep studies were carried out on these samples at five different temperatures in the interval between 1023 and 1223 K, by impression creep technique using four levels of stresses at each temperature. For a given temperature and stress, steady state impression velocity decreased with increasing volume fraction of lamellar constituent. Activation energy for steady state creep increased linearly with lamellar content from 185 kJ/mol at 22 vol.% to 362 kJ/mol at 100 vol.%. The stress exponent was found to be around 1.2 in all the cases. The results show that a fully lamellar structure has a superior behaviour where creep is an important factor.
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Date
Effect of microstructure on the impression creep of two-phase titanium aluminide
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Carl Hanser Verlag
Abstract
1995
Description
Keywords
Activation energy, Creep, Heat treatment, Metallographic microstructure, Phase composition, Stresses, Structure (composition), Temperature, Velocity, Volume fraction, Impression creep, Lamellar constituent, Steady state conditions, Two phase titanium aluminide, Aluminum alloys
Citation
Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques, 1995, 86, 11, pp. 760-763